林明璋 講座教授

1. M. C. Lin and M. H. Back, “The Thermal Decomposition of Ethane. Part I. Initiation and Termination Steps”, Can. J. Chem., 44, 505 (1966)
2. M. C. Lin, “The Reaction of Hydrogen and Ethylene in the Gas Phase”, Can. J. Chem., 44, 1237 (1966)
3. M. C. Lin and M. H. Back, “The Thermal Decomposition of Ethane. Part II. The Unimolecular Decomposition of the Ethane Molecule and the Ethyl Radical”, Can. J. Chem., 44, 2357 (1966)
4. M. C. Lin and M. H. Back, “The Thermal Decomposition of Ethane. Part III. Secondary Reactions”, Can. J. Chem., 44, 2369 (1966)
5. M. C. Lin and K. J. Laidler, “Kinetics of the Decomposition of Ethane and Propane Sensitized by Azomethane. The Decomposition of the Normal Propyl Radical”, Can. J. Chem., 44, 2927 (1966)
6. M. C. Lin and K. J. Laidler, “Thermal Decomposition of the Sec-Butyl Radical”, Can. J. Chem., 45, 1315 (1967)
7. M. C. Lin and M. H. Back, “Importance of the Heterogeneous Termination in the Pyrolysis of Ethane”, Can. J. Chem., 45, 3165 (1967)
8. M. C. Lin and K. J. Laidler, “Theory of the Unimolecular Decomposition of Ethane and of Ethyl and Methoxymethyl Radicals”, Trans. Faraday Soc., 64, 79 (1968)
9. M. C. Lin and K. J. Laidler, “Theoretical Aspects of the Gas-Phase Thermal Isomerizations”, Trans. Faraday Soc., 64, 94 (1968)
10. M. C. Lin and K. J. Laidler, “Some Aspects of the Thermal cis-trans Isomerization Mechanisms”, Can. J. Chem., 46, 973-978 (1968)
11. M. C. Lin and K. J. Laidler, “Fall-off Behavior and Kinetic Isotope-Effects in Reactions of Cyclic Hydrocarbons”, Trans. Faraday Soc., 64, 927 (1968)
12. M. C. Lin and S. H. Bauer, “Bimolecular Reaction of N2O with CO and the Recombination of O and CO as Studied in a Single-Pulse Shock Tube”, J. Chem. Phys., 50, 3377 (1969)
13. M. C. Lin and S. H. Bauer, “Reactions of Oxygen Fluoride in Shock Waves. I. Kinetics and Mechanism of Oxygen Fluoride Decomposition”, J. Am. Chem. Soc., 91, 7737 (1969)
14. H. Henrici, M. C. Lin and S. H. Bauer, “Reactions of F2O in Shock Waves. II. Kinetics and Mechanism of the F2O-CO Reaction”, J. Chem. Phys., 52, 5834 (1970)
15. M. C. Lin and W. H. Green, “Pulsed Discharge-Initiated Chemical Lasers. I. HF Laser Emission from CHF2CL, CHFCl2, CHF3, and CF2Cl2-H2 Systems”, J. Chem. Phys., 53, 3383 (1970)
16. M. C. Lin, “HCl Chemical Laser from H + Cl2O”, Chem. Phys. Lett., 7, 209 (1970)
17. M. C. Lin and S. H. Bauer, “A Chemical CO Laser”, Chem. Phys. Lett., 7, 223 (1970)
18. M. C. Lin, “Chemical HF Lasers from NF3-H2 and NF3-C2H6 Systems”, J. Phys. Chem., 75, 284 (1971)
19. W. H. Green and M. C. Lin, “Pulsed Discharge Initiated Chemical Lasers. II. HF Laser Emission from NF3 and N2F4 Systems”, IEEE J. Quantum Electronics, QE-7, 98 (1971)
20. W. H. Green and M. C. Lin, “Pulsed Discharge Initiated Chemical Lasers. III. Complete Population Inversion In HF”, J. Chem. Phys., 54, 3222 (1971)
21. M. C. Lin and L. E. Brus, “Chemical CO Laser from the O(1D) + C3O2 (1 g+)  3CO(1 +) Reaction”, J. Chem. Phys., 54, 5423 (1971)
22. L. E. Brus and M. C. Lin, “Chemical HF Lasers from Flash Photolysis of Various N2F4-RH Systems”, J. Phys. Chem., 75, 2546 (1971)
23. M. C. Lin, “Chemical Lasers Produced from O(1D) Atom Reactions. II. A New Hydrogen Fluoride Elimination Laser from the O(1D) + CHnF4-n (n = 1, 2 and 3) Reactions”, J. Phys. Chem., 75, 3642 (1971)
24. M. C. Lin, “Chemical Lasers Produced from O(1D) Atom Reactions. III. HCl Elimination Lasers from the O(1D) + CHnCl4-n (n = 1, 2 and 3) Reactions”, J. Phys. Chem., 76, 811 (1972)
25. M. C. Lin, “Chemical Lasers Produced from O(1D) Atom Reactions. IV. Competitive Eliminations of HCl and HF from the Vibrationally Excited ClFHCOH, Cl2FCOH and ClF2COH Molecules”, J. Phys. Chem., 76, 1425 (1972)
26. L. E. Brus and M. C. Lin, “Chemical Lasers Produced from O(1D) Atom Reactions. V. Carbon Monoxide Stimulated Emission from Flash-Initiated O3 + XCN Systems”, J. Phys. Chem., 76, 1429 (1972)
27. M. C. Lin, “Chemical Lasers Produced from O(3P) Atom Reactions. I. Observation of CO and HF Laser Emissions from Several O-Atom Reactions”, Int. J. Chem. Kinet., 5, 173 (1973)
28. M. C. Lin, “Chemical Lasers Produced from O(3P) Atom Reactions. II. A Mechanistic Study of 5-m CO Laser Emission from the O + C2H2 Reaction”, Chemiluminescence and Bioluminescence – The Proceedings of the International Conference on Chemiluminescence. M. J. Cormier, D. Hercules and J. Lee, eds., p. 61, Plenum Press, NY (1973)
29. R. J. Gordon and M. C. Lin, “Chemical HF Laser Emission from the CHF + O2 Reaction”, Chem. Phys. Lett., 22, 107 (1973)
30. R. J. Gordon and M. C. Lin, “The Reaction of Nitric Oxide with Vibrationally Excited Ozone”, Chem. Phys. Lett., 22, 262 (1973)
31. M. C. Lin, “The Mechanism of CO Laser Emission from the CH + NO Reaction”, J. Phys. Chem., 77, 2726 (1973)
32. M. C. Lin, “Chemical Lasers Produced from O(3P) Atom Reactions. III. 5-m CO Laser Emission from the O + CH Reaction”, Int. J. Chem. Kinet., 6, 1 (1974)
33. M. C. Lin, “Photoexcitation and Photodissociation Lasers. Part I. Nitric Oxide Laser Emissions Resulting from C(2 ) A(2 +) and D(2 +) A(2 +) Transitions”, IEEE J. Quantum Electron, QE-10, 516 (1974)
34. R. G. Shortridge and M. C. Lin, “Chemical Lasers Produced from O(3P) Atom Reactions. IV. CO Laser Emission from the O + CN Reaction”, J. Phys. Chem., 78, 1451 (1974)
35. M. C. Lin, “Chemical CO and CO2 Lasers Produced from the CH + O2 Reaction”, J. Chem. Phys., 61, 1835 (1974)
36. M. C. Lin and R. G. Shortridge, “Electronic-to-Vibrational Energy Transfer Reactions. X* + CO (X = O, I and Br)”, Chemical Phys. Lett., 29, 42 (1974)
37. R. G. Shortridge and M. C. Lin, “Mechanisms of HF Laser Emissions from Flash-Initiated CHFCl2 and CH2FCl-NO Mixtures”, IEEE J. Quantum Electron, QE-10, 873 (1974)
38. M. C. Lin, “Photoexcitation and Photodissociation Lasers. II. CO Laser Emission from the Vacuum UV Photodissociation of COS”, Chem. Phys., 7, 433 (1975)
39. M. C. Lin, “Photoexcitation and Photodissociation Lasers. III. Mechanisms of CO Laser Emission from the Vacuum UV Photodissociation of CH2CO-O2 and CH2CO-SO2 Mixtures”, Chem. Phys., 7, 442 (1975)
40. R. G. Shortridge and M. C. Lin, “CO Vibrational Population Distributions in the Reactions of OCS with O(3P) and O(1D2) Atoms”, Chem. Phys. Lett., 35, 146 (1975)
41. M. C. Lin, R. G. Shortridge and M. E. Umstead, “The Dynamics of Reactions of O(3P) Atoms with Allene and Methylacetylene”, Chem. Phys. Letters, 37, 279 (1976)
42. R. J. Gordon and M. C. Lin, “The Reaction of Nitric Oxide with Vibrationally Excited Ozone. II”, J. Chem. Phys., 64, 1058 (1976)
43. R. G. Shortridge and M. C. Lin, “The Dynamics of the O(1D2) + CO(X1 +, v = 0) Reaction”, J. Chem. Phys., 64, 4076 (1976)
44. T. L. Burks and M. C. Lin, “Mechanisms of CF2 + NO and CF + NO Reactions via Mass Spectral and Chemical Laser Emission Measurements”, J. Chem. Phys., 64, 4235 (1976)
45. D. S. Y. Hsu and M. C. Lin, “Electronic-to-Vibrational Energy Transfer Reactions: Na(3 2P) + CO(X1 +, v = 0) ”, Chem. Phys. Letters, 42, 78 (1976)
46. M. E. Umstead, R. G. Shortridge and M. C. Lin, “The Dynamics of CO Production from the O(3P) + Methylacetylene Reaction”, Chem. Phys., 20, 271 (1977)
47. D. S. Y. Hsu and M. C. Lin, “Evidence for Triplet CF2 Formation in the O(3P) + C2F4 Reaction”, Chem. Phys., 21, 235 (1977)
48. R. R. Smardzewski and M. C. Lin, “Matrix Reactions of Oxygen Atoms with H2S Molecules”, J. Chem. Phys., 66, 3197 (1977)
49. D. S. Y. Hsu and M. C. Lin, “The Production of Vibrationally Excited CO from the Reaction of CH2 with O2 and CO2”, Int. J. Chem. Kinet., 9, 507 (1977)
50. D. S. Y. Hsu and M. C. Lin, “CO Product Vibrational Energy Distribution in the O(3P) + C3O2 Reaction”, ACS Symp. Ser., 56, 121 (1977)
51. M. E. Umstead and M. C. Lin, “The Dynamics of CO Production from the Reaction of O(3P) with 1- and 2-Butyne”, Chem. Phys., 25, 353 (1977)
52. D. S. Y. Hsu, L. J. Colcord and M. C. Lin, “Laser Emission and Energy Partitioning in the Reaction of Oxygen Atoms with 3,3,3-Trifluoromethylacetylene”, J. Phys. Chem., 82, 121 (1978)
53. M. C. Lin, “Energy Distribution in HF from the Reaction of CHF with O2 and NO”, J. Chem. Phys., 68, 2004 (1978)
54. D. S. Y. Hsu and M. C. Lin, “Chemical Lasers Produced from O(3P) Atom Reactions V. CO Laser Emissions and Vibrational Energy Distribution in the Flash-Initiated SO2-CFBr3 System”, Int. J. Chem. Kinet., 10, 839 (1978)
55. L. J. Colcord and M. C. Lin, “Evidence for HF Elimination Via a Five-Centered Complex in the Photolysis of 3, 3, 3-Trifluoropropyne Near 200 nm”, J. Photochem., 8, 337 (1978)
56. D. S. Y. Hsu and M. C. Lin, “Dynamics of the Reaction of Oxygen Atoms with Carbon Suboxide”, J. Chem. Phys., 68, 4347 (1978)
57. M. E. Umstead, R. G. Shortridge and M. C. Lin, “Energy Partitioning in the Photodissociation of C3H4O Near 200 nm”, J. Phys. Chem., 82, 1455 (1978)
58. D. S. Y. Hsu and M. C. Lin, “Two-Laser Studies of E  V Energy Transfer Reactions Involving CO and Electronically Excited I2, ICl and NO2”, Chem. Phys. Lett., 56, 79 (1978)
59. T. L. Burks and M. C. Lin, “Non-Statistical Energy Partitioning in the Decomposition of Chemically Activated CF3OH and CH2FOH Molecules”, Chem. Phys., 33, (1978)
60. M. E. Umstead and M. C. Lin, “Effect of Laser Radiation on the Catalytic Decomposition of Formic Acid on Platinum”, J. Phys. Chem., 82, 2047 (1978)
61. J. E. Butler, J. W. Hudgens, M. C. Lin and G. K. Smith, “Observation of OH (v = 0,1) in the reactions of O(3P) with HCl (v = 0, 1, 2) ”, Chem. Phys. Lett., 58, 216 (1978)
62. D. S. Y. Hsu, M. E. Umstead and M. C. Lin, “Kinetics and Mechanisms of Reactions of CF, CHF and CF2 Radicals”, ACS Symposium Series Monograph on Kinetics and Dynamics of Reactions with Atomic Fluorine and Fluorine-Rich Polyatomic Radicals, Vol. 66, p. 128, 1978
63. A. Baronavski, J. E. Butler, J. W. Hudgens, M. C. Lin, J. R. McDonald and M. E. Umstead, “Chemical Applications of Lasers”, Advances in Laser Chemistry, Ed. A. Zewail, p. 62, Springer-Verlag, New York, 1978
64. M. E. Umstead, D. E. Tevault and M. C. Lin, “The Effect of Laser Radiation on Catalytic Reactions”, Proc. 22nd Int. Technical Symposium and Instrument Display, “Laser Spectroscopy”, p. 33, Vol. 158, SPIE (1978)
65. D. E. Tevault, M. C. Lin, M. E. Umstead and R. R. Smardzewski, “Evidence for Production of the Hydroxycarbonyl Radical in the Decomposition of Formic Acid on Platinum”, Int. J. Chem. Kinet., 11, 445 (1979)
66. D. S. Y. Hsu, R. G. Shortridge and M. C. Lin, “Products Vibrational Energy Distribution in the O(3P) + CHF Reaction”, Chem. Phys., 38, 285 (1979)
67. M. E. Umstead, F. J. Woods and M. C. Lin, “Mechanism of HF Production and Stimulated Emission from the Reaction O(3P) Atoms with Fluoroethenes”, J. Phys. Chem., 83, 1289 (1979)
68. J. E. Butler, L. P. Goss, M. C. Lin and J. W. Hudgens, “Production, Detection and Reactions of the CH Radical”, Chem. Phys. Letts., 63, 104 (1979)
69. G. K. Smith, J. E. Butler and M. C. Lin, “The OH(X2 , v = 0) Rotational Energy Distribution in the Reaction of O(1D) + H2”, Chem. Phys. Lett., 65, 115 (1979)
70. L. D. Talley, D. E. Tevault and M. C. Lin, “Laser Diagnostics of Matrix-Isolated OH Radicals from Oxidation of H2 on Platinum”, Chem. Phys. Lett., 66, 584 (1979)
71. W. B. Shaub and M. C. Lin, “Predictive Modeling of Diborane Oxidation”, Proc. 10th Materials Research Symposium on Characterization of High Temperature Vapors and Gases, NBS Special Pub. No. 561, p. 1249 (1979)
72. D. E. Tevault and M. C. Lin, “Catalytic Reactions Studied by a Matrix Isolation Technique: Decomposition of HCOOH on Pt”, Proc. 10th Materials Research Symposium on Characterization of High Temperature Vapors and Gases, NBS Special Pub. No. 561, p. 1551 (1979)
73. D. S. Y. Hsu, W. M. Shaub, T. L. Burks and M. C. Lin, “Dynamics of Reactions of O(3P) Atoms with CS, CS2 and OCS”, Chem. Phys., 44, 143 (1979)
74. M. C. Lin and J. R. McDonald, “Production and Detection of Reactive Species with Lasers in Static Systems”, A chapter in the book on “Reactive Intermediates in the Gas Phase: Generation and Monitoring.” Ed. D. W. Setser, Academic Press, p. 233-304, 1979
75. G. K. Smith, J. E. Butler and M. C. Lin, “Two-Laser Study of the Dynamics of the O(1D) + H2 Reaction”, Proc. Int. Conf. on Lasers ’78, V. J. Corcoran, ed., p. 215, STS Press, McLean, VA, 1979
76. D. E. Tevault, M. E. Umstead and M. C. Lin, “Effects of Laser Radiation on Heterogeneous Reactions in Static and Flow Systems”, Proc. Int. Conf. on Lasers ’78, V. J. Corcoran, ed., p. 219, STS Press, McLean, VA, 1979
77. A. B. Harvey, H. Ravner, N. L. Jarvis, M. C. Lin, A. A. Conte and N. D. Rebuck, “Novel Lubricants: Deuterated Materials with Superior Properties”, Proc. of National Symposium on Wear and Corrosion, p. 59, Am. Chem. Soc., 1979
78. M. E. Umstead, L. D. Talley, D. E. Tevault and M. C. Lin, “Laser Applications to Heterogeneous Catalysis: Reactant Excitation and Product Diagnostics”, Opt. Eng., 19, 94 (1980)
79. W. M. Shaub, T. L. Burks and M. C. Lin, “Dynamics of Reactions of O(3P) Atoms with 1-Alkynes as Studied by a CO Laser Resonance Absorption Technique”, Chem. Phys., 45, 455 (1980)
80. L. D. Talley and M. C. Lin, “Laser Diagnostics of HO Radical Formation in the H2 + N2O Reaction on Platinum”, AIP Conf. Proc. Vol. 61, Aspects of the Kinetics and Dynamics of Surface Reactions, p. 297 (1980)
81. D. E. Tevault, L. D. Talley and M. C. Lin, “Matrix Isolation and Laser Diagnostic Studies of Catalytic Oxidation of H2 and D2 on Platinum”, J. Chem. Phys., 72, 3314 (1980)
82. J. E. Butler, J. W. Fleming, L. P. Goss and M. C. Lin, “Kinetics of CH Radical Reactions Important to Hydrocarbon Combustion Systems”, ACS Symp. Ser., 134, 397 (1980)
83. W. M. Shaub and M. C. Lin, “Carbon Monoxide Laser Resonance Absorption Studies of O(3P) + 1-Alkynes and Methylene Radical Reactions”, ACS Symp. Ser., 134, 403 (1980)
84. L. D. Talley and M. C. Lin, “Production of OH Radicals in the Catalytic Oxidation of H2 by NO2 over Pt”, Proc. Int. Conf. on Lasers ’79, V. J. Corcoran, ed., p. 270, STS Press, McLean, VA, 1980
85. J. W. Fleming, G. T. Fujimoto, M. C. Lin and A. B. Harvey, “Applications of Multiphoton Dissociation and Laser Induced Fluorescence to Combustion: Reactions of CH Radicals with Unsaturated Hydrocarbons”, Proc. Int. Conf. on Lasers ’79, V. J. Corcoran, ed., p. 246, STS Press, McLean, VA, 1980
86. D. S. Y. Hsu and M. C. Lin, “The Dynamics of the Quenching of Na(3 2PJ) by CO(X 1 +, v=0) ”, J. Chem. Phys., 73, 2188 (1980)
87. M. E. Umstead, J. W. Fleming and M. C. Lin, “Photonitration of Hydrocarbons with Lasers”, IEEE J. Quantum Electron, QE-16, 1227 (1980)
88. G. T. Fujimoto, M. E. Umstead and M. C. Lin, “Effects of Competitive Hydrogen Halide Elimination on CO Production from the Reaction of O(3P) Atoms with Propargyl Chloride and Bromide”, Chem. Phys., 51, 399 (1980)
89. M. C. Lin, “Dynamics of Oxygen Atom Reactions”, Adv. Chem. Phys. (Potential Energy Surfaces), 42, 113 (1980)
90. J. J. DeCorpo, J. W. Hudgens, M. C. Lin, F. E. Saalfeld, M. E. Seaver and J. R. Wyatt, “Characterization of Multiphoton Ionization Mass Spectrometry”, Adv. Mass Spectrom., 8A, 133 (1980)
91. M. C. Lin and D. E. Tevault, “A Possible Role of Triplet-State Species as Chain-Initiators in High Temperature Oxidation of Aromatic Hydrocarbons”, Combustion and Flames, 42, 139 (1981)
92. W. M. Shaub, D. S. Y. Hsu, T. L. Burks and M. C. Lin, “Dynamics and Mechanisms of CO Production from the Reactions of CH2 Radicals with O(3P) and O2”, 18th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1981, p. 811.
93. L. D. Talley, W. A. Sanders, D. J. Bogan and M. C. Lin, “Internal Energy of Hydroxyl Radicals Desorbing from Polycrystalline Pt Surfaces”, Chem. Phys. Lett., 78, 500 (1981)
94. J. E. Butler, G. K. Smith, L. D. Talley and M. C. Lin, “Rotational and Vibrational Energy Distributions of 16OH(X2 ) and 18OH(X2 ) Produced in the Reaction of O(1D) with H2O and H218O”, J. Chem. Phys., 74, 4501 (1981)
95. J. E. Butler, J. W. Fleming, L. P. Goss and M. C. Lin, “Kinetics of CH Radical Reactions with Selected Molecules at Room Temperature”, Chem. Phys. 56, 355 (1981)
96. A. P. Baronavski, M. E. Umstead and M. C. Lin, “Laser Diagnostics of Reaction Product Energy Distributions”, Adv. Chem. Phys. (Photoselective Chem., Part 2), 47, 85 (1981)
97. T. L. Burks and M. C. Lin, “The Dynamics of Formation of Vibrationally Excited HF in Reactions of O(21D2) Atoms with Partially Fluorinated Alkanes”, Int. J. Chem. Kinet., 13, 977 (1981)
98. L. D. Talley, W. A. Sanders, D. J. Bogan, and M. C. Lin, “Dynamics of Hydroxyl Radical Desorption from a Polycrystalline Platinum Surface”, J. Chem. Phys., 75, 3107 (1981)
99. T. G. DiGiuseppe, J. W. Hudgens and M. C. Lin, “Detection of Gas-Phase Methyl Radicals Using Multiphoton Ionization”, Chem. Phys. Lett., 82, 267 (1981)
100. L. D. Talley and M. C. Lin, “Energetics and Mechanism of Hydroxyl Radical Formation in the Catalytic Decomposition of Water on Pt Surfaces”, Chem. Phys., 61, 249 (1981)
101. M. E. Umstead, S. A. Lloyd and M. C. Lin, “The Mechanism of the Laser-Enhanced Reaction of NO2 with CO”, Proc. Int. Conf. on Lasers ’80, C. B. Collins, ed., p. 286, STS Press, McLean, VA, 1981
102. W. A. Sanders and M. C. Lin, “Application of the Laser-Induced Fluorescence Technique to the Study of Heterogeneous Catalytic Reactions”, in Laser Spectroscopy for Sensitive Detection, SPIE Vol. 286, p. 101, 1981
103. T. G. DiGiuseppe, J. W. Hudgens and M. C. Lin, “Multiphoton Ionization of CH3 Radicals in the Gas Phase”, J. Phys. Chem., 86, 36 (1982)
104. G. S. Selwyn, G. T. Fujimoto and M. C. Lin, “Catalytic Removal of NH and NH2 Free Radicals by Polycrystalline Pt and Fe Surfaces”, J. Phys. Chem., 86, 780 (1982)
105. W. M. Shaub, T. L. Burks and M. C. Lin, “Formation of Vibrationally Excited CO in the O(1D2) + C2H2 Reaction”, J. Phys. Chem., 86, 757 (1982)
106. G. T. Fujimoto, M. E. Umstead and M. C. Lin, “Dynamics of CO Formation in the Photodissociation of HNCO and CH2CO at 193nm”, Chem. Phys., 65, 197 (1982)
107. G. S. Selwyn and M. C. Lin, “Production of the NH Radical from the Catalytic Decomposition of NH3 on Polycrystalline Pt and Fe Surfaces at High Temperatures”, Chem. Phys., 67, 213 (1982)
108. M. R. Berman, J. W. Fleming, A. B. Harvey and M. C. Lin, “Temperature Dependence of the Reactions of CH Radicals with Unsaturated Hydrocarbons”, Chem. Phys., 73, 27 (1982)
109. T. G. DiGiuseppe, J. W. Hudgens and M. C. Lin, “New Electronic States in CH3, Observed Using Multiphoton Ionization”, J. Chem. Phys., 76, 3338 (1982)
110. M. R. Berman, J. W. Fleming, A. B. Harvey and M. C. Lin, “Temperature Dependence of CH Radical Reactions with O2, NO, CO and CO2”, 19th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1982, p. 73.
111. D. S. Y. Hsu, W. M. Shaub, M. Blackburn and M. C. Lin, “Thermal Decomposition of Formic Acid at High Temperatures in Shock Waves”, 19th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1982, p. 89.
112. J. W. Hudgens, T. G. DiGiuseppe and M. C. Lin, “Two Photon Resonant Enhanced Multiphoton Ionization Spectroscopy and State Assignments of the Methyl Radical”, J. Chem. Phys., 79, 571 (1983)
113. G. T. Fujimoto, G. S. Selwyn, J. T. Keiser and M. C. Lin, “Temperature Effect on the Removal of Hydroxyl Radicals by a Polycrystalline Platinum Surface”, J. Phys. Chem., 87, 1906 (1983)
114. G. S. Selwyn and M. C. Lin, “Catalytic Oxidation of NH3 on a Polycrystalline Pt Surface Studied by Laser Induced Fluorescence”, Surface Studies with Lasers, F. R. Aussenegg, A. Leitner and M. E. Lipitsch, eds., p. 115, Springer-Verlag, NY (1983)
115. D. S. Y. Hsu, W. M. Shaub, T. Creamer, D. Gutman and M. C. Lin, “Kinetic Modeling of CO Production from the Reaction of CH3 with O2 in Shock Waves”, Ber. Bunsenges. Phys. Chem., 87, 909 (1983)
116. M. C. Lin, M. E. Umstead and N. Djeu, “Chemical Lasers”, Ann. Rev. Phys. Chem., 34, 557 (1983)
117. M. R. Berman and M. C. Lin, “Kinetics and Mechanisms of the CH+N2 Reaction. Temperature- and Pressure-Dependence Studies and Transition-State-Theory Analysis”, J. Phys. Chem., 87, 3933 (1983)
118. M. R. Berman and M. C. Lin, “Kinetics and Mechanisms of the Reactions of CH with CH4, C2H6 and n-C4H10”, Chem. Phys., 82, 435 (1983)
119. D. S. Y. Hsu, G. L. Burks, M. D. Beebe and M. C. Lin, “Thermal Decomposition of Methyl Nitrite in Shock Waves Studied by Laser Probing”, Int. J. Chem. Kinet., 16, 1139 (1984)
120. D. A. Lichtin, M. R. Berman and M. C. Lin, “NH (A3Π → X3Σ-) Chemiluminescence from the CH(X2 )+NO Reaction”, Chem. Phys. Lett., 108, 18 (1984)
121. D. S. Y. Hsu and M. C. Lin, “Infrared Laser Probing of Combustion and Energetic Molecule Decomposition Reactions in Shock Waves”, SPIE Proceedings, 482, 79 (1984)
122. M. R. Berman and M. C. Lin, “Kinetics and Mechanisms of the Reactions of CH and CD with H2 and D2”, J. Chem. Phys., 80, 5743 (1984)
123. D. S. Y. Hsu, C. Y. Lin and M. C. Lin, “CO Formation in Early Stage High Temperature Benzene Oxidation under Fuel Lean Conditions: Kinetics of the Initiation Reaction, C6H6  C6H5 + H”, 20th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1984, p. 623.
124. G. S. Selwyn and M. C. Lin, “Free Radical Formation in the Catalytic Oxidation of NH3 over a Polycrystalline Pt Surface at High Temperatures”, Langmuir, 1, 212 (1985)
125. C. S. Dulcey, M. C. Lin and C. C. Hsu, “Thermal Desorption of the PO Radical from Polycrystalline Pt Surfaces”, Chem. Phys. Lett., 115, 481 (1985)
126. G. T. Fujimoto, M. E. Umstead and M. C. Lin, “CO Product Energy Distribution in the Photodissociation of Methylketene and Acrolein at 193 nm”, J. Chem. Phys., 82, 3042 (1985)
127. H. J. Robota, W. Vielhaber, M. C. Lin, J. Segner and G. Ertl, “Dynamics of Interaction of H2 and D2 with Ni(110) and Ni(111) Surfaces”, Surf. Sci., 155, 101 (1985)
128. D. W. Squire, C. S. Dulcey and M. C. Lin, “Formation of CH3 Radicals in the Decomposition of Trimethyl Aluminum on Hot Solid Surfaces”, Chem. Phys. Lett., 116, 525 (1985)
129. D. A. Lichtin and M. C. Lin, “Kinetics of CN Radical Reactions with Selected Molecules at Room Temperature”, Chem. Phys., 96, 473 (1985)
130. J. T. Keiser, M. A. Hoffbauer and M. C. Lin, “Production of OH on Polycrystalline Nickel Studied by Thermal Desorption/Laser-Induced Fluorescence”, J. Phys. Chem., 89, 2635 (1985)
131. D. W. Squire, C. S. Dulcey and M. C. Lin, “Mechanistic Studies of the Decompostion of Trimethylaluminum on Heated Surfaces”, J. Vac. Sci. Tech., B3, 1513 (1985)
132. C.-Y. Lin and M. C. Lin, “Unimolecular Decomposition of the Phenoxy Radical in Shock Waves”, Int. J. Chem. Kinet., 17, 1025 (1985)
133. D. S. Y. Hsu and M. C. Lin, “Laser Probing and Kinetic Modeling of NO and CO Production in Shock-Wave Decompostion of Nitromethane Under Highly Diluted Conditions”, J. Energ. Mat., 3, 95 (1985)
134. T. G. DiGiuseppe, J. W. Hudgens and M. C. Lin, “Two- and Three Photon Resonance Enhanced Multiphoton Ionization Spectroscopy of the Gas Phase Methyl Radical”, Lasers as Reactants and Probes in Chemistry W. M. Jackson and A. B. Harvey, eds., p. 121, Howard University Press, Washington, DC (1985)
135. G. S. Selwyn and M. C. Lin, “Laser Studies of Surface Chemistry”, Lasers as Reactants and Probes in Chemistry W. M. Jackson and A. B. Harvey, eds., p. 269, Howard University Press, Washington, DC (1985)
136. M. R. Berman, J. W. Fleming and M. C. Lin, “Laser Studies of the Kinetics and Mechanisms of CH Racial Reactions”, Lasers as Reactants and Probes in Chemistry W. M. Jackson and A. B. Harvey, eds., p. 451, Howard University Press, Washington, DC (1985)
137. D. S. Y. Hsu, W. H. Shaub and M. C. Lin, “Laser Probing of High Temperature Reaction Kinetics in Shock Waves”, Lasers as Reactants and Probes in Chemistry W. M. Jackson and A. B. Harvey, eds., p. 421, Howard University Press, Washington, DC (1985)
138. M. E. Umstead and M. C. Lin, “Infrared Chemical Lasers”, Chemiluminescence and Bioluminescence J. C. Burr, ed., p. 187, Marcel Dekker (1985)
139. A. Modl, H. Robota, J. Segner, W. Vielhaber, M. C. Lin and G. Ertl, “Rotational State Distributions of NO Molecules after Interaction with Germanium Surfaces”, J. Chem. Phys., 83, 4800 (1985)
140. M. E. Umstead, S. A. Lloyd, J. W. Fleming and M. C. Lin, “Laser-Induced Reactions of NO2 in the Visible Region: I. Kinetic Modeling of Nitrobutane Formation in the NO2-Isobutane System”, Appl. Phys. B., B38, 219 (1985)
141. M. E. Umstead, S. A. Lloyd and M. C. Lin, “Kinetics and Mechanism of the Thermal Decomposition of Dimethylnitramine and Dimethylnitrosamine”, Proc. 21st JANNAF Combustion Meeting, p. 417, CPIA, Laurel, MD (1985)
142. C. C. Hsu, J. V. Pistritto, C. S. Dulcey and M. C. Lin, “Catalytic Removal of DMMP and TMP Studied by Laser Induced Fluorescence and Multiphoton Ionization-Mass Spectrometry”, Proc. 1985 Scientific Conference on Chemical Defense Research, CRDEC-SP-85006, p. 483, CRDEC, Aberdeen, MD (1985)
143. S. A. Lloyd, M. E. Umstead and M. C. Lin, “Kinetics and Mechanism of Thermal Decomposition of Dimethylnitramine at Low Temperatures”, J. Energ. Mat., 3, 187 (1985)
144. M. E. Umstead, S. A. Lloyd and M. C. Lin, “Kinetics Modeling of Dimethylnitramine Thermal Decompostion – A Mechanistic Extrapolation to RDX Decomposition in the Gas Phase”, Proc. 22nd JANNAF Combustion Meeting, Chemical Propulsion Information Agency, Pub. No. 432, p. 515, Laurel, MD. (1985)
145. M. E. Umstead, S. A. Lloyd and M. C. Lin, “Laser-Induced Reactions of NO2 in the Visible Region: II. Kinetic and Mechanistic Study of the NO2-CO System”, Appl. Phys., B39, 55 (1986)
146. M. E. Umstead and M. C. Lin, “Laser-Induced Reactions of NO2 in the Visible Region: III. Adamantane Nitration in the Liquid Phase”, Appl. Phys., B39, 61 (1986)
147. C.-Y. Lin and M. C. Lin, “Thermal Decomposition of Methyl Phenyl Ether in Shock Waves: The Kinetics of Phenoxy Radical Reactions”, J. Phys. Chem., 90, 425 (1986)
148. M. A. Hoffbauer, D. S. Y. Hsu and M. C. Lin, “Rotational Energy Accommodation of OH Radicals Desorbing from a Pt Foil and a Pt (111) Single Crystal”, J. Chem. Phys., 84, 532 (1986)
149. C. Y. Lin and M. C. Lin, “The Combination Reaction of CH3 with C6H5O”, Austral. J. Chem., 39, 723 (1986)
150. D. A. Lichtin and M. C. Lin, “Temperature Dependence of the Reactions of CN Radicals with C2H2 and C2H4”, Chem. Phys., 104, 325 (1986)
151. M. C. Lin and W. A. Sanders, “Detection and Spectroscopy of Methyl and Substituted Methyl Radicals by Resonance Enhanced Multiphoton Ionization”, Advances in Multiphoton Processes and Spectroscopy, vol. 2. S. H. Lin, ed., p. 333, World Scientific Pub. Co., Singapore (1986)
152. D. K. Gaskill, N. Bottka and M. C. Lin, “The Growth of GaN Using Trimethygallium and Hydrazine OMCVD”, Apl. Phys. Lett., 48, 1449 (1986)
153. D. S. Y. Hsu, M. A. Hoffbauer and M. C. Lin, “Activation Energies for Thermal Desorption of Hydroxyl Radicals from Single-Crystal Platinum (111) and Polycrystalline Platinum Foil Surfaces”, Langmuir, 2, 302 (1986)
154. M. C. Lin and G. Ertl, “Laser Probing of Molecules Desorbing and Scattering from Solid Surfaces”, Ann. Rev. Phys. Chem., 37, 587 (1986)
155. C. S. Dulcey, C. C. Hsu, J. V. Pistritto and M. C. Lin, “The Catalytic Removal of DMMP and TMP Studied by Laser Induced Fluorescence and Multiphoton Ionization-Mass Spectroscopy”, Proc. 1985 Scientific Conference on Chemical Defense Research, p. 469, CRDEC, Aberdeen, MD (1986)
156. A. Modl, H. Robota, J. Segner, W. Vielhaber, M. C. Lin and G. Ertl, “Reaction Dynamics of NO2 Decomposition on Ge: An Example of Dissociative Desorption”, Surf. Sci., 169, L341 (1986)
157. D. W. Squire, C. S. Dulcey and M. C. Lin, “MPI/MS Studies of Thin Film Deposition Processes: Methyl Production from Trimethylgallium Decomposition and the Effect of Added Hydrazine”, Mat. Res. Soc. Symp. Proc., Vol. 54 (Thin Films-Interfaces and Phenomena), eds. R. J. Nemanich, P. S. Ho and S. S. Lau, p. 709, Mat. Res. Soc., Pittsburgh, PA (1986)
158. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetic Study of the Reaction CH(X2) + H2 CH2 (X3B1) in the Temperature Range 372 to 675 K”, J. Chem. Phys., 85, 4373 (1986)
159. D. W. Squire, C. S. Dulcey and M. C. Lin, “Multiphoton Ionization Mass Spectrometry as a Mechanistic Probe of Chemical Vapor Deposition”, Proc. of the International Conference on Applications of Lasers and Electro-Optics (ICALEO ’85), LIA Vols. 49, 51 and 52, p. 148, The Laser Institute of America, OH (1986)
160. D. W. Squire, C. S. Dulcey and M. C. Lin, “Multiphoton-Ionization/Mass Spectrometric Detection of Gallium Atom During the Trimethylgallium CVD Reaction”, Chem. Phys. Lett., 131, 112 (1986)
161. D. K. Gaskill, N. Bottka and M. C. Lin, “OMVPE of GaN and AlN Films by Metal Alkyls and Hydrazine”, J. Crystal Growth, 77, 418 (1986)
162. C. S. Dulcey and M. C. Lin, “Detection of Small Organic Sulfides by Multiphoton Ionization Spectrometry”, Proc. 2nd Int. Symp. Protection Against Chemical Warfare Agents, p. 221-227, Stockholm, Sweden (1986)
163. S. Zabarnick, J. W. Fleming and M. C. Lin, “Temperature Dependence of CH Radical Reactions with H2O and CH2O”, 21st Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1986, p. 713.
164. W. A. Sanders, C. Y. Lin and M. C. Lin, “On the Importance of the Reaction CH2+N2  HCN+NH as a Precursor for Prompt NO Formation”, Combustion Sci. Technol., 51, 103 (1987)
165. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of CH(X2Π) Radical Reactions with Propane, Isobutane and Neopentane”, Chem. Phys., 112, 409 (1987)
166. J. A. Dagata, D. W. Squire, C. S. Dulcey, D. S. Y. Hsu and M. C. Lin, “MPI/MS Detection of SiF and SiF2 Radicals Produced from the Reaction of F2 and NF3 with Silicon”, Chem. Phys. Lett., 134, 151 (1987)
167. W. A. Sanders and M. C. Lin, “Kinetics and Mechanism of Reactions of NF2 with Olefins”, JCS Faraday Trans. II, 83, 905 (1987)
168. D. S. Y. Hsu, M. A. Hoffbauer and M. C. Lin, “Dynamics of OH Desorption from Single Crystal Pt (111) and Polycrystalline Pt Foil Surfaces”, Surf. Sci., 184, 25 (1987)
169. D. S. Y. Hsu and M. C. Lin, “Laser Probing of OH Production in Catalytic Oxidation of NH3 by NO and NO2 over a Polycrystalline Pt Surface at High Temperatures”, Appl. Surf. Sci., 28, 415 (1987)
170. J. A. Dagata, D. W. Squire, C. S. Dulcey, D. S. Y. Hsu and M. C. Lin, “Chemical Processes Involved in the Etching of Silicon by Xenon Difluoride”, J. Vac. Sci. Technol. (B), 5, 1495 (1987)
171. W. A. Sanders and M. C. Lin, “Kinetics and Mechanisms of Methylidyne Radical Reactions”, Chemical Kinetics of Small Organic Radicals Z. Alfassi, ed., CRC Press, vol. III, p. 103 (1988).
172. D. W. Squire, J. A. Dagata, D. S. Y. Hsu, C. S. Dulcey, and M. C. Lin, “Thermal Reactions of F2 and NF3 with Silicon (110) Studied by Laser Ionization Mass Spectrometry”, J. Phys. Chem., 92, 2827 (1988).
173. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of Hydroxyl Radical Reactions with Formaldehyde and 1, 3, 5-Trioxane between 290 and 600K”, Int. J. Chem. Kinet., 20, 117 (1988).
174. D. S. Y. Hsu and M. C. Lin, “A Comparison of the Rotational Energy Accommodation in OH and OD Desorbing from a Smooth Pt (111) Single Crystal”, J. Chem. Phys., 88, 432 (1988).
175. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of CH(X2Π) Radical Reactions with Cyclopropane, Cyclopentanes, and Cyclohexane”, J. Chem. Phys., 88, 5983 (1988).
176. J. S. Horwitz, C. S. Dulcey and M. C. Lin, “REMPI/MS Studies of SiF2 Production from the Thermal Reaction of F2 with Doped and Undoped Si (110)”, Inst. Phys. Conf. Ser. No. 94, p. 121, 1988.
177. S. Zabarnick, J. W. Fleming and M. C. Lin, “The Reaction of OH and OD with Nitromethane and OD with Perdeuteronitromethane”, Chem. Phys., 120, 319 (1988).
178. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of CH Reactions with Fluoromethanes and Carbon Tetrachloride”, J. Chem. Phys., 120, 311 (1988).
179. D. S. Y. Hsu, D. W. Squire and M. C. Lin, “The Rotational Energy Accommodation of the NO Formed in the Catalytic Oxidation of Ammonia Over Pt (111)”, J. Chem. Phys., 89, 2861 (1988).
180. D. W. Squire, C. S. Dulcey and M. C. Lin, “Surface Reactions in OMCVD: Detection of Gas Phase Radicals in GaAs Deposition under Single Gas-Surface Collision Conditions”, Mat. Res. Soc. Proc., 101, 301 (1988).
181. Y. He, W. A. Sanders and M. C. Lin, “Thermal Decomposition of Methyl Nitrite: Kinetic Modeling of Detailed Product Measurements by GLC and FTIR”, J. Phys. Chem., 92, 5474 (1988).
182. J. Horwitz, C. S. Dulcey and M. C. Lin, “REMPI/MS Detection of SiF2 Radicals by (1+3) and (3+1) Photoionization”, Chem. Phys. Lett., 150, 165 (1988).
183. M. C. Lin, “Multiphoton Ionization/Mass Spectrometric Study of OMCVD Mechanisms Under Single Gas-Surface Collision Conditions”, Proc. NATO Workshop on Mechanisms of Reactions of Organometallic Compounds with Surfaces, NATO ASI Series B, Vol. 198, D. J. Cole-Hamilton and J. O. Williams, eds., p. 191, Plenum, London, 1989.
184. T. Choudhury, W. A. Sanders and M. C. Lin, “A Shock Tube and Modeling Study of the CH3+CH2O Reaction at High Temperatures”, J. Phys. Chem., 93, 5143 (1989).
185. T. K. Choudhury and M. C. Lin, “Pyrolysis of Methyl Nitrite and 1,3,5-Trioxane Mixtures in Shock Waves: Kinetic Modeling of the H+CH20 Reaction Rate”, Combust. Sci. Technol., 64, 19 (1989).
186. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of CH Reactions with N2O, SO2, COS, CS2 and SF6”, Int. J. Chem. Kinet., 21, 765 (1989).
187. M. Page, M. C. Lin, Y. He and T. Choudhury, “Kinetics of the Methoxy Radical Decomposition Reaction: Theory and Experiment”, J. Phys. Chem., 93, 4404 (1989).
188. S. Zabarnick, J. W. Fleming and M. C. Lin, “Kinetics of Methylidyne (CH X2 ) Radical Reactions with Ammonia and Methylamines”, Chem. Phys., 132, 407 (1989).
189. Y. He, E. Kolby, P. Shumaker and M. C. Lin, “Thermal Reaction of CH2O with NO2 in the Temperature Range of 393-476 K: FTIR Product Measurement and Kinetic Modeling”, Int. J. Chem. Kinet., 21, 1015 (1989).
190. S. Zabarnick and M. C. Lin, “Kinetics of CN (X2+) Radical Reactions with HCN, BrCN and CH3CN”, Chem. Phys., 134, 185 (1989).
191. T. K. Choudhury, W. A. Sanders and M. C. Lin, “Kinetic Modeling of Methyl Radical Reactions with Formaldehyde and Isobutane: Reinterpretation of Existing Data Obtained by Molecular Modulation Spectrometry”, J. C. S. Faraday Trans. II., 85, 801 (1989).
192. N. S. Wang, D. L. Yang and M. C. Lin, “Kinetics of CN Radical Reactions with NOx between 297 and 740 K”, Chem. Phys. Lett., 163, 480 (1989).
193. S. Cooper, M. E. Umstead, E. Kolby and M. C. Lin, “Relative Rates of CH3NO2, CH3ONO and CH3ONO2 Formation in the Thermal Reaction of NO2 with CH3CHO and di-t-Butyl Peroxide at Low Temperatures”, J. Energ. Mat., 7, 55 (1989).
194. L. V. Novakoski, D. S. Y. Hsu and M. C. Lin, “Rotational Energy Accommodation of OH Produced in the Catalytic Reaction of NO2 + H2 over Pt (111)”, AIP Conf. Proc. No. 191, Opt. Sci. Eng. Ser. 10, Adv. Laser Sci. IV, p. 397, Am. Inst. Phys., 1989.
195. J. S. Horwitz, J. A. Dagata, D. W. Shinn and M. C. Lin, “Rotational Temperature of SiF2 Radical Produced in the Thermal Etching of Silicon by Fluorine Containing Compounds”, AIP Conf. Proc. No. 191, Opt. Sci. Eng. Ser. 10, Adv. Laser Sci. IV, p. 445, Am. Inst. Phys., 1989.
196. E. Villa, J. A. Dagata and M. C. Lin, “Photochemistry of Ga (CH3) 3 at a Low Temperature Surface”, AIP Conf. Proc. No. 191, Opt. Sci. Eng. Ser. 10, Adv. Laser Sci. IV, p. 379, Am. Inst. Phys., 1989.
197. E. Villa, J. A. Dagata and M. C. Lin, “Photochemistry of Adsorbed Phenyl Iodide: Desorption and Photofragmentation Dynamics by EI/REMPI-TOF Measurement”, J. Chem. Phys., 92, 1407 (1990).
198. T. K. Choudhury, Y. He, W. A. Sanders and M. C. Lin, “CO Formation in Thermal Decomposition of CH3ONO at High Temperatures: Kinetic Modeling of the CH3O Decomposition Rate”, J. Phys. Chem., 94, 2394 (1990).
199. C. H. Wu, C.-Y. Lin, H.-T. Wang and M. C. Lin, “A Shock Tube Study of the Oxidation of the Methyl Radical”, AIP Conference Proc. No. 208, Current Topics in Shock Waves, ed. Y. W. Kim, p. 450, 1990.
200. J. S. Horwitz and M. C. Lin, “Laser and Mass Spectrometric Studies of Silicon Etching”, Material Chemistry at High Temperatures, vol. 2, Processing and Performance, ed. J. W. Hastie, p. 265, Humana Press, Clifton, N. J., 1990. High Temp. Sci. 27, 266-278 (1990).
201. C.-Y. Lin, H.-T. Wang, M. C. Lin and C. F. Melius, “A Shock Tube Study of the CH2O + NO2 Reaction at High Temperatures”, Int. J. Chem. Kinet., 22, 455 (1990).
202. T. K. Choudhury and M. C. Lin, “Homogeneous Pyrolysis of Acetylacetone at High Temperatures in Shock Waves”, Int. J. Chem. Kinet., 20, 491 (1990).
203. C. H. Wu, H.-t. Wang, M. C. Lin and R. A. Fifer, “Kinetics of CO and H Atom Production from the Decomposition of HNCO in Shock Waves”, J. Phys. Chem., 94, 3344 (1990).
204. T. K. Choudhury, M. C. Lin, C.-Y. Lin and W. A. Sanders, “Thermal Decomposition t-Butyl Alcohol in Shock Waves”, Combust. Sci. Technol., 71, 219 (1990).
205. S.-P. Lee, T. Yu and M. C. Lin, “Effects of Temperature and Lithium on CH3 Radical Formation in the CH4 Oxidation Coupling Reaction over MgO”, Int. J. Chem. Kinet., 22, 975 (1990).
206. E. Villa, J. A. Dagata, J. S. Horwitz, D. W. Squire and M.C. Lin, “Production of CH3 Radicals from Hydrogenation of C2H2 over T¬a and W at High Temperatures”, J. Vac. Sci. Technol., A8, 3237 (1990).
207. C. H. Hsu, C. S. Dulcey J. S. Horwitz and M. C. Lin, “Mass Spectrometric Characterization of Performance of a Low-Temperature Oxidation Catalyst”, J. Mol. Catal. 60, 389 (1990).
208. Q. Sun, D. Yang, N. S. Wang, J. M. Bowman and M. C. Lin, “Experimental and Reduced Dimensionality Quantum Rate Coefficients for H2(D2) + CN  H(D)CN + H(D) ”, J. Chem. Phys., 93, 4730 (1990).
209. J. A. Dagata, E. Villa and M. C. Lin, “UV Desorption and Photochemistry of (CH3)2 Au (hfacac) Adsorbed on a Quartz Substrate”, Appl. Phys. B51 (Photophys. and Laser Chem.), 443 (1990).
210. S. Zabarnick, J. W. Fleming and M. C. Lin, “Direct Measurement of Rate Constant for the Reactions of CH and CD with HCN and DCN”, Chem. Phys., 150, 109 (1991).
211. N. S. Wang, D. L. Yang, M. C. Lin and C. F. Melius, “Kinetics of CN Reactions with N2O and CO2”, Int. J. Chem. Kinet., 23, 151 (1991).
212. K. H. Aldridge, X. Liu, M. C. Lin and C. F. Melius, “Thermal Unimolecular Decomposition of 1,3,5-Trioxane: Comparison of Theory and Experiment”, Int. J. Chem. Kinet., 23, 947 (1991).
213. Y. He, X. Liu, M. C. Lin and C. F. Melius, “The Thermal Reaction of HNCO at Moderate Temperatures”, Int. J. Chem. Kinet., 23, 1129 (1991).
214. J. C. S. Chu, J. Breslin, N. S. Wang and M. C. Lin, “Relative Stabilities of Tetramethyl and Tetraethyl Orthosilicates in the Gas Phase”, Mater. Lett., 12, 179 (1991).
215. C. H. Wu, Y. He and M. C. Lin, “Kinetics and Mechanism of the HNCO deNOx Process at High Temperatures”, Proc. of 1st Int. Conf. on Combust. Technol. for a Clean Environ., Reaction Fundamentals II. p. 19-25, 1991. Also appeared in Energy, Combustion and the Environment, vol. 1, Combustion Technologies for a Clean Environment, Eds. M. da Graco Carvalho, W. H. Fiveland, F. C. Lockwood and C. Papadopoulos, pp. 743-756, 1995.
216. M. C. Lin, Y. He and C. F. Melius, “Theoretical Interpretation of the Kinetics and Mechanisms of the HNO + HNO and HNO + 2NO Reactions with a Unified Model”, Int. J. Chem. Kinet., 24, 489 (1992).
217. Y. Bu, J. C. S. Chu and M. C. Lin, “Temperature Dependence of the UPS and HREELS of HN3 and DN3 on Si (110)”, Surf. Sci. Lett., 264, L151 (1992).
218. D. L. Yang, T. Yu, N. S. Wang and M. C. Lin, “Temperature Dependence of Cyanogen Radical Reactions with Selected Alkanes: CN Reactivities Towards Primary, Secondary and Tertiary C-H Bonds”, Chem. Phys., 160, 307 (1992).
219. D. L. Yang, T. Yu, N. S. Wang and M. C. Lin, “CN Radical Reactions with Selected Olefins in the Temperature Range 174-740 K”, Chem. Phys. 160, 317 (1992).
220. Y. He and M. C. Lin, “Effects of Nitric Oxide on the Thermal Decomposition of Methyl Nitrite: Overall Kinetics and Rate Constants for HNO + HNO and HNO + 2NO Reactions”, Int. J. Chem. Kinet. 24, 743 (1992).
221. T. Yu, D. L. Yang and M. C. Lin, “Kinetics of CN Radical Reactions with Selected Cycloalkanes: CN Reactivity Towards Secondary C-H Bonds”, Chem. Phys., 162, 449 (1992)
222. D. L. Yang, T. Yu, M. C. Lin and C. F. Melius, “CN Radical Reactions with Hydrogen Cyanide and Cyanogen: Comparison of Theory and Experiment”, J. Chem. Phys., 97, 222 (1992).
223. Y. He, M. C. Lin, C. H. Wu and C. F. Melius, “The Reaction of HNCO with NO2 in Shock Waves”, 24th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1992, p. 711.
224. J. C. S. Chu, Y. Bu and M. C. Lin, “Spectroscopy and Reactions of Hydrazoic Acid on Silicon Single Crystal Surfaces (II). HN3 and DN3 on Si(100)”, Proc. 6th Int. Electronic Mat. and Processes Conference, p. 31-41, Baltimore, MD., June 23-25, 1992.
225. Y. Bu, J. C. S. Chu and M. C. Lin, “Decomposition of TMIn on Si(111)-7×7 Studied with XPS, UPS and HREEL”, Mat. Lett., 14, 207 (1992).
226. M. C. Lin, Y. He and C. F. Melius, “Implications of the HCN  HNC Process to High-Temperature Nitrogen-Containing Fuel Chemistry”, Int. J. Chem. Kinet., 24, 1103 (1992).
227. Y. Bu, D. W. Shinn and M. C. Lin, “Adsorption and Thermal Decomposition of N2H4 and CH3N2H3 on Si (111)-7×7”, Surf. Sci., 276, 184 (1992).
228. J. A. Tarr, S.-P. Lee and M. C. Lin, “UV Photochemistry of Trivinylantimony Adsorbed on Quartz”, Mat. Chem. Phys., 33, 93 (1993).
229. Y. Bu, Jason C. S. Chu, D. W. Shinn and M. C. Lin, “Adsorption and Decomposition of Trimethyl Indium on Si (110)”, Mat. Chem. Phys., 33, 99 (1993)
230. M. T. Butterfield, T. Yu and M. C. Lin, “Kinetics of CN Reactions with Allene, Butadiene, Propylene and Acrylonitrile”, Chem. Phys., 169, 129 (1993).
231. J. C. S. Chu, Y. Bu and M. C. Lin, “Spectroscopy and Reactions of Hydrazoic Acid on Silicon Single Crystal Surfaces. (III). HN3 and DN3 on Si(111)-7×7”, Surf. Sci., 284, 281 (1993).
232. Y. Bu, J. C. S. Chu and M. C. Lin, “Thermal Stability of Trimethyl Indium on Si(100)-2×1 as Studied by HREELS, UPS and XPS: A Comparison with the Results from Si(111)-7×7 and Si(100) Surfaces”, Surf. Sci., 285, 243 (1993).
233. T. Yu and M. C. Lin, “Kinetics of Phenyl Radical Reactions Studied by the “Cavity-Ring-Down” Method”, J. Am. Chem. Soc. 115, 4371 (1993)
234. Y. He, X. Liu, M.C. Lin and C.F. Melius, “Thermal Reaction of HNCO with NO2 at Moderate Temperatures”, Int. J. Chem. Kinet., 25, 845 (1993).
235. D. L. Yang, T. Yu, M. C. Lin and C.F. Melius, “The Reaction of CN with CH4 and CD4: An Experimental and Theoretical Study”, Chem. Phys., 177, 271 (1993).
236. M. C. Lin and T. Yu, “Kinetics of the Reaction of C6H5 with HBr”, Int. J. Chem. Kinet., 25, 875 (1993).
237. M. C. Lin, Y. He and C. F. Melius, “Theoretical Aspects of Product Formation from the NCO + NO Reaction”, J. Phys. Chem., 97, 9124 (1993).
238. Y. Bu, L. Ma and M. C. Lin, “Interaction of HCN/DCN with Si(100)-2×1”, J. Phys. Chem., 97, 7081 (1993).
239. Y. Bu and M. C. Lin, “Interaction of CO with Silicon Single Crystal Surfaces Studied by UPS, HREELS and TPD”, Surf. Sci., 298, 94 (1993).
240. Y. Bu, L. Ma and M. C. Lin, “Interaction of HCN(DCN) with Si(111)-7×7 Studied with HREELS, UPS and XPS”, J. Phys. Chem., 97, 11797 (1993).
241. Y. Bu, L. Ma and M.C. Lin, “Laser-Assisted Chemical Vapor Deposition of InN on Si(100) ”, J. Vac. Sci. Technol., A11, 2931 (1993).
242. D. L. Yang, T. Yu and M.C. Lin, “Kinetics of CN Reactions Formaldehyde and 1,3,5-Trioxane”, Int. J. Chem. Kinet., 25, 1053 (1993).
243. Y. Bu and M. C. Lin, “The 308-nm Laser Photodissociation of HN3 Adsorbed on Si(111)-7×7”, Surf. Sci., 301, 118 (1994).
244. T. Yu and M. C. Lin, “Kinetics of the C6H5 + NO Association Reaction”, J. Phys. Chem., 98, 2105 (1994).
245. Y. Bu and M. C. Lin, “Surface Chemistry of N2H4 on Si(100)-2×1”, Surf. Sci., 311, 385 (1994).
246. Y. Bu and M. C. Lin, “Nitridation of GaAs Single Crystal Surfaces Using Hydrazoic Acid and 308-nm Photon Beams”, Surf. Sci., 317, 152 (1994).
247. E. W. G. Diau, T. Yu, M. A. G. Wagner and M.C. Lin, “Kinetics of the NH2 + NO Reaction: Effects of Temperature on the Total Rate Constant and the OH/H2O Branching Ratio”, J. Phys. Chem., 98, 4034 (1994).
248. T. Yu and M. C. Lin, “Kinetics of the Reaction of C6H5 with HBr and DBr”, Int. J. Chem. Kinet., 26, 771 (1994).
249. T. Yu and M. C. Lin, “Kinetics of the C6H5 + CCl4 Reaction in the Gas Phase: Comparison with Liquid-Phase Data”, J. Phys. Chem., 98, 9697 (1994).
250. T. Yu, M. C. Lin and C. F. Melius, “Absolute Rate Constant for the Reaction of Phenyl Radical with Acetylene”, Int. J. Chem. Kinet., 26, 1095 (1994).
251. Y. Bu and M. C. Lin, “LPCVD of InN on GaAs(110) using HN3 and TMIn: Comparison with Si(100) Results”, Mat. Res. Soc., Proc., 335, 21 (1994).
252. Y. Bu and M. C. Lin, “Thermal Dissociation of NH2CHO(ND2CDO) on Si(100)-2×1”, Langmuir, 10, 3621 (1994).
253. E. W. Diau, M. C. Lin and C. F. Melius, “A Theoretical Study of the CH3 + C2H2 Reaction”, J. Chem. Phys., 101, 3923 (1994).
254. A. M. Mebel, K. Morokuma and M. C. Lin, “Ab Initio Molecular Orbital Study of Potential Energy Surface for the NH + NO2 Reaction”, J. Chem. Phys., 101, 3916 (1994).
255. Y. Bu and M. C. Lin, “Surface Chemistry of s-Triazine on Si(100)-2×1”, J. Phys. Chem., 98, 7871 (1994).
256. T. Yu and M.C. Lin, “Kinetics of the C6H5 + O2 Reaction at Low Temperatures”, J. Am. Chem. Soc., 116, 9571 (1994).
257. A.M. Mebel and M.C. Lin, “Ab Initio Molecular Orbital Calculations of C6H5O2 Isomers”, J. Am. Chem. Soc., 116, 9577 (1994).
258. S.-P. Lee and M. C. Lin, “Laser-Induced Decomposition of Dimethyl Cadmium on a Quartz Substrate”, Appl. Surf. Sci., 84, 31 (1995)
259. T. Yu, A.M. Mebel and M.C. Lin, “Reaction of Phenoxy Radical with Nitric Oxide”, J. Phys. Org. Chem., 8, 47 (1995).
260. Y. Bu, L. Ma and M.C. Lin, “Thermal Decomposition of C2N2 on Si (100)-2×1 and Si(111)-7×7”, J. Phys. Chem. 99 1046 (1995) .
261. J. C. S. Chu, R. Soller, M. C. Lin and C. F. Melius, “Thermal Decomposition of Tetramethyl Orthosilicate in the Gas Phase: An Experimental and Theoretical Study of the Initiation Process”, J. Phys. Chem., 99, 663 (1995).
262. T. Yu and M.C. Lin, “Kinetics of the Phenyl Radical Reaction with Ethylene: An RRKM Theoretical Analysis of Low and High Temperature Data”, Combust. Flame, 100, 169 (1995).
263. A.M. Mebel, K. Morokuma, M. C. Lin and C.F. Melius, “Potential Energy Surface of the HNO + NO Reaction. An ab Initio Molecular Orbital Study”, J. Phys. Chem., 99, 1900 (1995).
264. Y. Bu, M. C. Lin, A.D. Berry and D. G. Hendershot, “Low pressure chemical vapor deposition of InSb using neopentylstibine and trimethylindium”, J. Vac. Sci. Technol. A 13(2), Mar/Apr 230 (1995).
265. E. W. G. Diau, M. C. Lin, Y. He and C. F. Melius, “Theoretical Aspects of the H/N/O-Chemistry Relevant to the Thermal Reduction of NO by H2”, Prog. in Energy and Combust. Sci., 21, 1 (1995).
266. E. W. G. Diau and M. C. Lin, “A Theoretical Study of H(D) + N2O: Effects of Pressure, Temperature, and Quantum-Mechanical Tunneling on H(D)-Atom Decay and OH(D)-Radical Production”, J. Phys. Chem., 99, 6589 (1995).
267. A. M. Mebel, M. C. Lin, K. Morokuma and C.F. Melius, “Theoretical Study of the Gas-Phase Structure, Thermochemistry, and Decomposition Mechanisms of NH4NO2 and NH4N(NO2) 2”, J. Phys. Chem., 99, 6842 (1995).
268. Y. Bu, M. C. Lin, L. P. Fu, D. G. Chtchekine, G. D. Gilliland, Y. Chen, S. E. Ralph and J. R. Stock, “Optical Properties of GaN Epitaxial Films Grown by Low-Pressure Chemical Vapor Epitaxy Using a New Nitrogen Source: Hydrazoic Acid (HN) 3”, Phys. Lett., 66, 2433 (1995).
269. T. Yu and M. C. Lin, “Kinetics of Phenyl Radical Reactions with Selected Cycloalkanes and Carbon Tetrachloride”, J. Phys. Chem., 99, 8599 (1995).
270. Y. Bu and M. C. Lin, “Low Pressure Chemical Vapor Deposition of III/V-Nitrides Using Organometallics and Hydrazoic Acid Precursors”, J. Chin. Chem. Soc. (Taiwan), 42, 423 (1995).
271. Y. Bu and M. C. Lin, “The Adsorption and Thermal Decomposition of CH2CO(CD2CO) on Si (111)-7×7”, J. Chin. Chem. Soc. (Taiwan), 42, 309 (1995).
272. M. C. Lin and A. M. Mebel, “Ab Initio Molecular Orbital Study of the O + C6H5O Reaction”, J. Phys. Org. Chem., 8, 407 (1995).
273. E. W. G Diau, M. J. Halbgewachs, A. R. Smith and M. C. Lin, “Thermal Reduction of NO by H2: Kinetic Modeling of the HNO + NO Reaction”, Int. J. Chem. Kinet., 27, 867 (1995).
274. E. W. G. Diau and M. C. Lin, “Kinetic Modeling of he CH3 + C2H2 Reaction Data with Sensitivity Analyses”, Int. J. Chem. Kinet., 27, 855 (1995).
275. Y. He, C. H. Wu, M. C. Lin and C.F. Melius, “The Reaction of CN with NO at High Temperatures in Shock Waves”, Shock Waves @ Marseille II. Physico-Chemical Processes, R. Brun and L. Z. Dumitrescu, Eds., Springer, p. 89-94, 1995.
276. A. M. Mebel, K. Morokuma and M. C. Lin, “Modification of the Gaussian-2 Theoretical Model: The Use of Coupled Cluster Energies, Density Functional Geometries and Frequencies”, J. Chem. Phys.,103, 7414 (1995).
277. A. M. Mebel, K. Morokuma and M. C. Lin, “Ab Initio Molecular Orbital Study of Potential Energy Surface for the Reaction of C2H3 with H2”, J. Chem. Phys., 103, 3440 (1995).
278. A. M. Mebel, C.-C. Hsu, M. C. Lin and K. Morokuma, “An ab initio molecular orbital study of potential energy surface of the NH2+NO2 reaction”, J. Chem. Phys., 103, 5640 (1995).
279. J. Park and M. C. Lin, “Direct Determination of Product Branching for the NH2 + NO Reaction at Temperatures between 302 and 1,060 K”, J. Phys. Chem., 100, 3317 (1996).
280. D. L. Yang and M. C. Lin, “The Reactions of the CN Radical with Molecules Relevant to Combustion and Atmospheric Chemistry”, The Chemical Dynamics and Kinetics of Small Molecules, K. Liu and A.F. Wagner, eds., Part I, Chapter 5, pp. 164-213, World Scientific Pub. Co., Singapore, 1996.
281. L. C. Chen, C. Y. Yang, D. M. Bhusari, K. H. Chen, M. C. Lin, J. C. Lin and T. J. Chuang, “Formation of Crystalline Silicon Carbon Nitride Films by Microwave Plasma-Enhanced Chemical Vapor Deposition”, Diamond and Related Mater., 5, 514 (1996).
282. A. M. Mebel, E. W. G. Diau, M. C. Lin and K. Morokuma, “Theoretical Rate Constants for the NH3 + NOx  NH2 + HNOx (x=1,2) Reactions by ab initio MO/VTST calculations”, J. Phys. Chem., 100, 7517 (1996).
283. K. Watanabe, M. C. Lin, Y. A. Gruzdkov and Y. Matsumoto, “Mechanism for the Desorption of Molecularly and Dissociatively Adsorbed Methane on Pt(111) by Pulse-Laser Heating”, J. Chem. Phys., 104, 5974 (1996).
284. A. M. Mebel, M. C. Lin, K. Morokuma and C. F. Melius, “Theoretical Study of Reactions of N2O with NO and OH Radicals”, Int. J. Chem. Kinet., 28, 693 (1996).
285. Ruifeng Liu, Keiji Morokuma, Alexander M. Mebel and M. C. Lin, “Ab Initio Study of the Mechanism for the Thermal Decomposition of the Phenoxy Radical”, J. Phys. Chem., 100, 9314 (1996).
286. A. M. Mebel, A. Luna, M. C. Lin and K. Morokuma, “A Density Functional Study of the Global Potential Energy Surfaces of the [H, C, N, O] System in the Singlet and Triplet States”, J. Chem. Phys., 105, 6439 (1996).
287. J. Park and M. C. Lin, “Mass-Spectrometric Determination of Product Branching Probabilities in the NH2 + NO2 Reaction at Temperatures between 300 and 990 K”, Int. J. Chem. Kinet., 28, 879 (1996).
288. C.-C. Hsu, A. M. Mebel and M. C. Lin, “Ab Initio Molecular Orbital Study of the HCO + O2 Reaction: Direct vs. Indirect Abstraction Channels”, J. Chem. Phys., 105, 2346 (1996).
289. A. M. Mebel, E. W. G. Diau, M. C. Lin and K. Morokuma, “Ab Initio and RRKM Calculations for Multichannel Rate Constants of the C2H3 + O2 Reaction”, J. Am. Chem. Soc., 118, 9759 (1996).
290. L. V. Moskaleva, A. M. Mebel and M. C. Lin, “The CH3 + C5H5 Reaction: A Potential Source of Benzene at High Temperatures”, 26th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, p. 521, 1996.
291. M. J. Halbgewachs, E. W. G. Diau, A. M. Mebel, M. C. Lin and C. F. Melius, “Thermal Reduction of NO by NH3: Kinetic Modeling of the NH2 + NO Product Branching Ratio”, 26th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, p. 2109 (1996).
292. L. K. Madden, A. M. Mebel, M. C. Lin and C. F. Melius, “A Theoretical Study of the Thermal Isomerization of Fulvene to Benzene”, J. Phys. Org. Chem., 9, 801 (1996).
293. J. Park and M. C. Lin, “Laser-Initiated NO Reduction by NH3: Total Rate Constant and Product Branching Ratio Measurements for the NH2 + NO Reaction”, J. Phys. Chem. A, 101, 5 (1997).
294. J. Park and M. C. Lin, “Kinetics for the Recombination of Phenyl Radicals”, J. Phys. Chem. A, 101, 14 (1997).
295. C.-C. Hsu, M. C. Lin, A. M. Mebel and C.F. Melius, “Ab Initio Study of the H + HONO Reaction: Direct Abstraction versus Indirect Exchange Processes”, J. Phys. Chem. A, 101, 60 (1997).
296. D. G. Chtchekine, L. P. Fu, G. D. Gilliland, Y. Chen, S. E. Ralph, K. K. Bajaj, Y. Bu, M.C. Lin, F. T. Bacalzo and S. R. Stock, “Properties of Low-Pressure Chemical Vapor Epitaxial GaN Films Grown Using Hydrazoic Acid (HN3)”, J. Appl. Phys., 81, 2197 (1997).
297. J. W. Boughton, S. Kristyan and M. C. Lin, “Theoretical Study of the Reaction of Hydrogen with Nitric Acid: Ab Initio MO and TST/RRKM Calculations”, Chem. Phys., 214, 219 (1997).
298. D. M. Bhusari, C. K. Chen, K. H. Chen, T. J. Chuang, L. C. Chen and M. C. Lin, “Composition of SiCN Crystals Consisting of a Predominantly Carbon-Nitride Network”, J. Mater. Res., 12, 322 (1997).
299. A. Grant Thaxton, C.-C. Hsu and M. C. Lin, “Rate Constant for the NH3 + NO2 NH2 + HONO Reaction: Comparison of Kinetically Modeled and Predicted Results”, Int. J. Chem. Kinet., 29, 245 (1997).
300. Y. Bu, J. Breslin and M. C. Lin, “Adsorption and Thermal Decomposition of Acetaldehyde on Si (111)-7×7”, J. Phys. Chem. B, 101, 1872 (1997).
301. A. M. Mebel and M. C. Lin, “Reactions of NOx with Nitrogen Hydrides”, Int. Rev. Phys. Chem., 16, 249 (1997).
302. J. Park and M. C. Lin, “A Mass-Spectrometric Study of the NH2 + NO2 reaction”, J. Phys. Chem. A, 101, 2643 (1997).
303. L. C. Chen, D. M. Bhusari, C. Y. Yang, K. H. Chen, T. J. Chuang and M. C. Lin, “Si-Containing Crystalline Carbon Nitride Derived by Microwave Plasma-Enhanced Chemical Vapor Deposition”, Thin Solid Films, 303, 66 (1997).
304. A. M. Mebel, M. C. Lin, T. Yu and K. Morokuma, “Theoretical Study of Potential Energy Surface and Thermal Rate Constants for the C6H5 + H2 and C6H6 + H Reactions”, J. Phys. Chem. A, 101, 3189 (1997).
305. L. K. Madden, L. V. Moskaleva, S. Kristyan and M. C. Lin, “Ab Initio MO Study of the Unimolecular Decomposition of the Phenyl Radical”, J. Phys. Chem. A, 101, 6790 (1997).
306. J. Park, I. V. Dyakov, A. M. Mebel and M. C. Lin, “Experimental and Theoretical Studies of the Unimolecular Decomposition of Nitrosobenzene: High-Pressure Rate Constants and the C-N Bond Strength”, J. Phys. Chem. A, 101, 6043 (1997).
307. J. Park, I. V. Dyakov, and M. C. Lin, “FTIR and Mass-Spectrometry Measurements of the Rate Constant for the C6H5 + H2 Reaction”, J. Phys. Chem. A, 101, 8839 (1997).
308. C.-C. Hsu, J. W. Boughton, A. M. Mebel and M. C. Lin, “Theoretical Study of HONO Reactions with H, OH, NO and NH2 Radicals”, in Challenges in Propellants and Combustion: 100 Years after Nobel, Begell House, Inc., New York, pp. 48-57, Aug. 1997.
309. I. V. Tokmakov, C.-C. Hsu, L. V. Moskaleva and M. C. Lin, “Thermal Decomposition of Formic Acid in the Gas Phase: Bimolecular and H2O-Catalyzed Reactions”, Mol. Phys., 92, 581 (1997).
310. A. G. Thaxton, M. C. Lin, C. -Y. Lin and C. F. Melius, “Thermal Oxidation of HCN Oxidation by NO2 at High Temperature”, In Shock Waves (ISSW21), A. F. P. Houwing, editor-in-chief, Vol. I, pp. 245-250, Australia, 1997.
311. A. M. Mebel, M. C. Lin and C. F. Melius, “Rate Constant of the HONO + HONO H2O + NO + NO2 Reaction from ab Initio MO and TST Calculations”, J. Phys. Chem. A, 102, 1803 (1998).
312. R. N. Musin and M. C. Lin, “Novel Bimolecular Reactions Between NH3 and HNO3 in the Gas Phase”, J. Phys. Chem. A, 102, 1808 (1998).
313. L. V. Moskaleva and M. C. Lin, “A Theoretical Study of the NH2 + C2H2 Reaction”, J. Phys. Chem. A, 102, 4687 (1998).
314. D. Chakraborty, J. Park and M. C. Lin, “Theoretical Study of the OH + NO2 reaction: formation of nitric acid and the hydroperoxyl radical”, Chem. Phys., 231, 39 (1998).
315. A. M. Mebel, M. C. Lin and K. Morokuma, “Ab initio MO and TST Calculations for the Rate Constant of the HNO + NO2 = HONO + NO reaction”, Int. J. Chem. Kinet., 30, 729 (1998).
316. S. J. Klippenstein, D. L. Yang, T. Yu, S. Kristyan and M. C. Lin, “A Theoretical and Experimental Study of the CN + NO Association Reaction”, J. Phys. Chem. A, 102, 6973 (1998).
317. A. M. Mebel, L. V. Moskaleva and M. C. Lin, “Reactions of NH2 in the Gas Phase”, N-Centered Radicals, Z. B. Alfassi, ed., Wiley & Sons, NY, Chapter 14, pp. 467-514, 1998.
318. F. T. Bacalzo, D. G. Musaev, and M. C. Lin, “Theoretical Studies of CO Adsorption on Si(100)-2×1 Surface”, J. Phys. Chem. B, 102, 2221 (1998).
319. D. Chakraborty, C. -C. Hsu and M. C. Lin, “Theoretical Studies of Nitroamino Radical Reactions: Rate Constants for the Unimolecular Decomposition of HNNO2 and Related Bimolecular Processes”, J. Chem. Phys., 109, 8889 (1998).
320. S. Kristyan and M. C. Lin, “Theoretical calculations for the kinetics of the HN+NO reaction”, Chem. Phys. Lett., 29, 200 (1998).
321. J. Park, D. Chakraborty and M. C. Lin, “Thermal Decomposition of Gaseous ADN: Kinetic Modeling of Product Formation with ab initio MO/RRKM Calculations”, 27th Symp. (Int.) on Combustion, 1998, pp. 2351-2357.
322. J. Park and M. C. Lin, “Kinetic Applications of the Pulsed Laser Photolysis/Mass Spectrometric Technique”, Trends in Chemical Physics, 2, 965-979 (1998).
323. J. Park, Nevia D. Giles, Jesse Moore and M. C. Lin, “A Comprehensive Kinetic Study of Thermal Reduction of NO2 by H2”, J. Phys. Chem. A, 102, 10099 (1998).
324. J. Park and M. C. Lin, “Kinetic Studies of Aromatic Radical Reactions by Cavity Ringdown Spectrometry”, ACS Publication Series 720, 196-209 (1999).
325. M. D. Brioukov, J. Park and M. C. Lin, “Kinetic Modeling of Benzene Decomposition near 1000 K: The Effects of Toluene Impurity”, Int. J. Chem. Kinet., 31, 577-582 (1999).
326. A. M. Mebel, L. V. Moskaleva and M. C. Lin, “Ab Initio MO Calculations for the Reactions of NH2 with H2, H2O, NH2 and CH4: Prediction of Absolute Rate Constants and Kinetic Isotope Effects”, J. Mol. Struct. (THEOCHEM), 461/462, 223-238 (1999).
327. F. Bacalzo-Gladden, D. G. Musaev and M. C. Lin, “A Model Calculation for the Isomerization and Decomposition of Chemisorbed HCN on the Si(100)-2×1 Surface”, J. Chinese Chemical Society (Taiwan), 46, 395 (1999).
328. A. M. Mebel and M. C. Lin, “Prediction of absolute rate constants for the reactions of NH2 with alkanes from ab initio G2M/TST calculations”, J. Phys. Chem. A, 103, 2088-2096 (1999).
329. D. Chakraborty and M. C. Lin, “Theoretical Studies of Methyleneamino (CH2N) Radical Reactions: (I) Rate Constant and product Branching for the CH2N + N2O Process by Ab Initio MO/Statistical Theory Calculations”, J. Phys. Chem. A, 103, 601-606 (1999).
330. V. Tokmakov, J. Park, S. Gheyas and M. C. Lin, “Experimental and Theoretical Studies of the Reaction of Phenyl Radical with Methane”, J. Phys. Chem. A, 103, 3636-3645 (1999).
331. R. N. Musin, D. G. Musaev and M. C. Lin, “Quantum-Chemical Study of the Structure and Properties of Hypothetical Superhard Materials Based on the Cubic Silicon-Carbon Nitrides”, J. Phys. Chem. B, 103, 797-803 (1999).
332. F. Bacalzo-Gladden and M. C. Lin, “A Model Study of CO-CO Adsorbate Interaction on Si(100)-2×1”, J. Phys. Chem. B, 103, 7270-7276 (1999).
333. J. Park, D. Chakraborty, D. M. Bhusari and M. C. Lin, “Kinetics of C6H5 Radical Reactions with Toluene and Xylenes by Cavity Ringdown Spectrometry”, J. Phys. Chem. A, 103, 4002 (1999).
334. J. Park, S. I. Gheyas and M. C. Lin, “Kinetics of C6H5 Radical Reactions with 2-methylpropane, 2,3-dimethylbutane and 2,3,4-trimethylpentane”, Int. J. Chem. Kinet. 31, 645-53 (1999)
335. L. V. Moskaleva, L. K. Madden and M. C. Lin, “Unimolecular Isomerization/ Decomposition of ortho-Benzyne: Ab Initio MO/Statistical Theory Study”, Phys. Chem. Chem. Phys., 1, 3967 (1999).
336. J. Park, S. Burova, A. S. Rodgers and M. C. Lin, “Experimental and Theoretical Studies of the C6H5 + C6H6 Reaction”, J. Phys. A, 103, 9036-41 (1999).
337. J. Park and M. C. Lin, “Product Branching Ratios in the NH2 + NO Reaction: A Re-evaluation”, J. Phys. Chem. A 103, 8906-07 (1999).
338. L. V. Moskaleva and M. C. Lin, “Unimolecular Isomerization/Decomposition of Cyclopentadienyl and Related Bimolecular Reverse Process: Ab Initio MO/Statistical Theory Study”, J. Comput. Chem., 21, 415 (2000).
339. D. Chakraborty and M. C. Lin, “Gas Phase Chemical Kinetics of [C, H, N, O]-Systems Relevant to the Combustion of Nitramines in Their Early Stages”, in Solid Propellant Chemistry, Combustion, and Motor Interior Ballistics, Progress in Astronautics and Aeronautics, eds. V. Yang, T. B. Brill and W. Z. Ren, vol. 185, American Institute of Aeronautics and Astronautics, Reston, VA, pp. 33-71, 2000.
340. G.-J. Nam, W. Xia, J. Park and M. C. Lin, “The Reaction of C6H5 with CO: Kinetic Measurement and Theoretical Correlation with the Reverse Process”, J. Phys. Chem. A, 104, 1233-39 (2000).
341. Y. M. Choi, W. S. Xia, J. Park and M. C. Lin, “Kinetics and Mechanism for the Reaction of Phenyl Radical with Formaldehyde”, J. Phys. Chem. A, 104, 7030-35 (2000).
342. X. Lu, R. N. Musin and M. C. Lin, “Gas-Phase Reactions of HONO with HNO and NH3: An Ab Initio MO/TST Study”, J. Phys. Chem. A, 104, 5141-48 (2000).
343. X. Lu, J. Park and M. C. Lin, “Gas-Phase Reactions of HONO with NO2, O3 and HCl: An Ab Initio MO/TST Study”, J. Phys. Chem. A, 104, 8730-38 (2000).
344. X. Lu and M. C. Lin, “Bonding Configurations of Acetylene Adsorbed on the Si(100)-2×1 Surface Predicted by Density Functional Cluster Model Calculations”, Phys. Chem. Chem. Phys., 2, 4213 (2000).
345. Rongshun Zhu and M. C. Lin, “The NCO + NO Reaction Revisited: Ab Inito MO/VRRKM Calculations for Total Rate Constant and Product Branching Ratios”, J. Phys. Chem. A, 104, 10807 (2000).
346. L. V. Moskaleva, W. S. Xia and M. C. Lin, “The CH + N2 Reaction over the Ground Electronic Doublet Potential Energy Surface: A Detailed Transition State Search”, Chem. Phys. Lett., 331, 269-77 (2000).
347. W. S. Xia and M. C. Lin, “A Computational Study of the C6H5 + CH2O Reaction”, Phys. Chem. Chem. Phys., 2, 5566-70 (2000).
348. W. S. Xia and M. C. Lin, “Ab Initio MO/Statistical Theory Prediction of the OH + HONO Reaction Rate: Evidence for the Negative Temperature Dependence”, PhysChemComm (Electronic Journal), 13 (2000).
349. L. V. Moskaleva and M. C. Lin, “The Spin-Conserved Reaction CH + N2 H + NCN: A Major Pathway to Prompt NO Studied by Quantum/Statistical Theory Calculations and Kinetic Modeling of Rate Constant”, Proc. Combust. Intst., 28 (Part II), 2393-401 (2000).
350. L. C. Chen, K. H. Chen, J.-J. Wu, D. M. Bhusari and M. C. Lin, “Silicon Carbon Nitride: A New Wideband Gap Material”, in Silicon Based Materials and Devices, H. S. Nalwa, ed., Chap. 2, Vol. 1, pp. 73-125, Academic Press, N. Y., 2001.
351. J. Park, S. Gheyas and M. C. Lin, “Kinetics of Phenyl Radical Reactions with Ethane and Neopentane: Reactivity of C6H5 Toward the Primary C-H Bond of Alkanes”, Int. J. Chem. Kinet., 33, 64-69 (2001).
352. W. S. Xia and M. C. Lin, “A Multifacet Mechanism for the OH + HNO3 Reaction: An Ab Initio MO/Statistical Theory Study”, J. Chem. Phys., 114, 4522-32 (2001).
353. L. V. Moskaleva and M. C. Lin, “Computational Study on the Energetics of NCN Isomers and the Kinetics of the C + N2 N + CN Reaction”, J. Phys. Chem. A. 105, 4156-63 (2001).
354. A. M. Mebel, M. C. Lin, D. Charkraborty, J. Park, S. H. Lin and Y. T. Lee, “Ab Initio MO/RRKM Study of Multichannel Rate Constants for the H + C6H5 Reaction and the Unimolecular Decomposition of Benzene”, J. Chem. Phys., 114, 8421-35 (2001).
355. R. S. Zhu, C.-C. Hsu and M. C. Lin, “Ab Initio Study of the CH3 + O2 Reaction: Kinetics, Mechanism and Product Branching Probabilities”, J. Chem. Phys. 115, 195-203 (2001).
356. R. S. Zhu and M. C. Lin, “The CH3 + HO2 Reaction: First Principles Prediction of its Rate Constants and Product Branching Probailities”, J. Phys. Chem. A, 105, 243-48 (2001).
357. F. Bacalzo-Gladden, X. Lu and M. C. Lin, “Adsorption, Isomerzation, and Decomposition of HCN on Si (100)-2×1: A Computational Study with a Double-Dimer Cluster Model”, J. Phys. Chem. A. 105, 4368-73 (2001).
358. X. Lu, G. Fu, N. Wang, Q. Zhang and M. C. Lin, “A Theoretical Study of HN3 Reaction with the C(100)-2×1 Surface”, Chem. Phys. Lett., 343, 212-18 (2001).
359. Hongbo Luo and M. C. Lin, “A Computational Study of the Mechanism for Self-Assembly of N-Pyrrolyl Radicals on Si(100)-2×1”, Chem. Phys. Lett., 343, 219-24 (2001).
360. I. V. Tokmakov and M. C. Lin, “Kinetics and Mechanism for the H-for-X Exchange Process in the H + C6H5X (X = D, CH3) Reactions: A Computational Study”, Int. J. Chem. Kinet., 33, 633-53 (2001).
361. W. S. Xia, R. S. Zhu, M. C. Lin and A. M. Mebel, “Low-Energy Paths for the Unimolecular Decomposition of CH3OH: A G2M/Statistical Theory Study”, Faraday Discuss, 119, 191-205 (2001).
362. L. V. Moskaleva and M. C. Lin, “The CH + N2 Association Reaction at Low Temperatures: Ab Initio MO/VRRKM- Theory Analysis of Temperature and Pressure Effects”, Z. Phys. Chem., 215, 1043-54 (2001).
363. X. Lu, Q. Zhang and M. C. Lin, “Adsorption of Methanol, Formaldehyde and Formic Acid on the Si(100)-2×1 Surface: A Computational Study”, Phys. Chem. Chem. Phys., 3, 2156-61 (2001).
364. X. Lu, M. C. Lin, X. Xu, N. Wang and Q. Zhang, “Theoretical study of [4 + 2] cycloadditions of some 6- and 5-member ring aromatic compounds on the Si(001)-2 x 1 surface: correlation between binding energy and resonance energy”, PhysChemComm, 13, 1-3 (2001).
365. X. Lu, X. Xu, N. Wang, Q. Zhang and M. C. Lin, “Chemisorption and Decomposition of Thiophene and Furan on the Si(100)-2 e 1 Surface: A Quantum Chemical Study”, J. Phys. Chem. B. 105, 10069-75 (2001).
366. J. Park and M. C. Lin, “Does CH3 Addition to C6H6 Occur as Reported”, Int. J. Chem. Kinet., 33, 803-07 (2001).
367. R. S. Zhu and M. C. Lin, “The Self-Reaction of Hydroperoxy Radicals: Ab initio Characterization of Dimer Structures and Reaction Mechanisms”, PhysChemComm, 23, 1-6 (2001).
368. R. S. Zhu and M. C. Lin, “Ab Initio Study of Ammonium Perchlorate Combustion Initiation Processes: Unimolecular Decomposition of Perchloric Acid and the Related OH + ClO3 Reaction”, PhysChemComm, 25, 1-5 (2001).
369. R. S. Zhu, E. G. W. Diau, M. C. Lin and A. M. Mebel, “A Computational Study of the OH(OD) + CO Reactions: Effects of Pressure, Temperature, and Quantum-Mechanical Tunneling on Product Formation”, J. Phys. Chem. A, 105, 11249-59 (2001).
370. J. Park, D. Chakraborty, S. Jamindar, W. S. Xia, M. C. Lin and C. Bedford, “Thermal Decomposition of 2,2-bis(Difluoroamino) Propane Studied by FTIR Spectrometry and Quantum Chemical Calculations: The Primary Decomposition Kinetics and the Mechanism for the Decomposition of the (CH3)2CNF2 Radical”, Thermochimica Acta, 384, 101-11 (2002).
371. D. Chakraborty and M. C. Lin, “Formation and Decomposition of CH2N and CH2NO in the Combustion of RDX and HMX Studied by Quantum Chemical and Statistical Theory Calculations”, Proc. 5th Intern. Symp. on Special Topics in Chemical Propulsion and Combustion of Energetic Materials, eds. K. K. Kuo and L. T. DeLuca, pp. 31-39, Begell House, London, 2002.
372. Xin Lu and M. C. Lin, “Reactions of Some [C, N, O]-Containing Molecules with Silicon Surfaces: Experimental and Theoretical Studies”, Int. Rev. Phys. Chem., 21, 137-84 (2002).
373. R. S. Zhu and M. C. Lin, “Ab Initio Study of the Catalytic Effect of H2O on the Self- Reaction of HO2”, Chem. Phys. Lett., 354, 217 (2002).
374. T. B. Brill, M. C. Beckstead, J. E. Flanagan, M. C. Lin, T. A. Litzinger, R. H. Woodward Waesche and Charles A. Wight, “Chemical Speciation and Dynamics in the Surface Combustion Zone of Energetic Materials”, J. Propul. Power, 18, 824-34 (2002).
375. J. Park, Y. M. Choi, I. V. Dyakov and M. C. Lin, “An Experimental and Computational Study of the Thermal Oxidation of C6H5NO by NO2”, J. Phys. Chem. A., 106, 2903-08 (2002)
376. X. Lu, X. Xu, N. Wang, Q. Zhang and M. C. Lin, “High Charge Flexibility of the Surface Dangling Bonds on the Si(111)-7×7 Surface and the NH3 Chemisorption: A DFT Study”, Chem. Phys. Lett., 355, 365-71 (2002).
377. R. S. Zhu, Z. F. Xu and M. C. Lin, “Ab Initio Studies of ClOx Reactions: I. Kinetics and Mechanism for the OH + ClO Reaction”, J. Chem. Phys., 116, 7452-60 (2002).
378. R. S. Zhu and M. C. Lin, “Ab Initio Studies of ClOx Reactions: II. Unimolecular Decomposition of s-ClO3 and the Bimolecular O + OClO Reaction”, J. Phys. Chem. A, 106, 8386-90 (2002).
379. J. Park, R. S. Zhu and M. C. Lin, “Thermal Decomposition of Ethanol. 1. Ab Initio MO/RRKM Prediction of Rate Constant and Product Branching Ratios”, J. Chem. Phys., 117, 3224-31 (2002).
380. C.-C. Hsiao, Y.-P. Lee, N. S. Wang, J. H. Wang and M. C. Lin, “Experimental and Theoretical Studies of Rate Coefficients of the Reaction O (3P) + HCl at High Temperatures”, J. Phys. Chem. A, 106, 10231-237 (2002).
381. I. V. Tokmakov and M. C. Lin, “Kinetics and Mechanism for the OH + C6H6 Reaction: A Detailed Analysis with First Principles Calculations”, J. Phys. Chem. A, 106, 11309-326 (2002).
382. B. H. Bui, R. S. Zhu and M. C. Lin, “Thermal Decomposition of iso-Propanol: First-Principles Prediction of Total and Product-Branching Rate Constants”, J. Chem. Phys., 117, 11188-95 (2002).
383. L. V. Moskaleva and M. C. Lin, “Computational Study of the Kinetics and Mechanisms for the Reaction of H atoms with c-C5H6”, Proc. Combust. Inst., 29, 1319-27 (2002).
384. Z. F. Xu, R. S. Zhu and M. C. Lin, “Ab Initio Studies of ClOx Reactions: III. Kinetics and Mechanism for the OH + OClO Reaction”, J. Phys. Chem. A, 107, 1040-49 (2003).
385. I. V. Tokmakov, L. V. Moskaleva, D. V. Paschenko and M. C. Lin, “Computational Study of the HCCO + NO Reaction: Ab Initio MO/vRRKM Calulcations of the Total Rate Constants and Product Branching Ratios”, J. Phys. Chem. A, 107, 1066-76 (2003).
386. R. S. Zhu and M. C. Lin, “Ab Initio Studies of ClOx Reactions: IV. Kinetics and Mechanism for the Self-Reaction of ClO Radicals”, J. Chem. Phys., 118, 4094-4106 (2003).
387. R. S. Zhu and M. C. Lin, “Ab Initio Studies of ClOx Reactions: V. Evidence of a New Path in the Cl + ClOOCl Reaction”, J. Phys. Chem. A, 107, 3836-40 (2003).
388. Z. F. Xu, R. S. Zhu and M. C. Lin, “Ab Initio Sudies of ClOx Reactions: VI. Prediction of Total Rate Constant and Product Branching Probabilities for the HO2 + ClO Reaction”, J. Phys. Chem. A, 107, 3841-50 (2003).
389. Z. F. Xu and M. C. Lin, “Kinetics and Mechanism for the CH2O + NO2 Reaction: A Computational Study”, Int. J. Chem. Kinet., 35, 184-90 (2003).
390. R. S. Zhu and M. C. Lin, “Ab Initio Sudies of ClOx Reactions: VII. Isomers of Cl2O3 and Their Roles in the ClO + OClO Reaction”, J. Chem. Phys., 118, 8645-55 (2003).
391. M. T. Nguyen, H. T. Le, B. Hajgato, T. Veszpremi and M. C. Lin, “Nitromethane-Methyl Nitrite Rearrangement: A Persistent Discrepancy Between Theory and Experiment”, J. Phys. Chem. A, 107, 4286-91 (2003).
392. J. Park, Z. F. Xu and M. C. Lin, “Thermal Decomposition of Ethanol. II. Kinetics and Mechanism for the H + C2H5OH Reaction”, J. Chem. Phys., 118, 9990-96 (2003).
393. R. S. Zhu and M. C. Lin, “Ab Initio Studies of ClOx Reactions. VIII. Isomerization and Decomposition of ClOO and Related Bimolecular Processes”, J. Chem. Phys., 119, 2075-82 (2003).
394. R. S. Zhu and M. C. Lin, “H2O-Catalyzed Formation of O3 in the Self-Reaction of HO2: A Computational Study on the Effect of n-H2O (n = 1-3)”, PhysChemComm, 6(13), 51-54 (2003).
395. Y. M. Choi and M. C. Lin, “Experimental and Computational Studies of the Kinetics and Mechanisms for C6H5 Reactions with Acetone-h6 and d6”, J. Phys. Chem. A., 107(39), 7755-61 (2003).
396. R. S. Zhu and M. C. Lin, “Towards Reliable Prediction of Kinetics and Mechanisms for Elementary Reactions: Key Combustion Initiation Processes of Ammonium Perchlorate”, a chapter of book on Energetic Materials, Part 2, Detonation and Combustion, P. Politzer and J. S. Murray, eds. chp. 11, pp. 373 – 443, Elsevier Science Pub., 2003.
397. I. V. Tokmakov and M. C. Lin, “Reaction of Phenyl Radical with Acetylene: A Quantum Chemical Investigation of the Mechanism and Master Equation Analysis of the Kinetics”, J. Am. Chem. Soc., 125, 11397-408 (2003).
398. Z. F. Xu and M. C. Lin, “Ab Initio studies of ClOx reactions. IX. Combination and disproportionation reactions of ClO and s-ClO3 radicals”, J. Chem. Phys., 119, 8897-8904 (2003).
399. R. S. Zhu and M. C. Lin, “Ab initio Study of the HO2 + NO Reaction: Prediction of the Total Rate Constant and Product Branching Ratios for the Forward and Reverse Processes”, J. Chem. Phys., 119, 10667-10677 (2003).
400. C.-W. Lu, Y.-J. Wu, Y.-P. Lee, R. S. Zhu and M. C. Lin, “Experiments and Calculations on Rate Coefficients for Pyrolysis of SO2 and the Reaction O + SO at High Temperatures”, J. Phys. Chem. A, 107, 11020-11029 (2003).
401. J. Park, Liming Wang and M. C. Lin, “Kinetics of Phenyl Radical Reactions with Propane, n-Butane, n-Hexane and n-Octane: Reactivity of C6H5 toward the Secondary C-H Bond of Alkanes”, Int. J. Chem. Kinet., 36, 49-56 (2004).
402. I. V. Tokmakov, L. V. Moskaleva and M. C. Lin, “Quantum Chemical/vRRKM Study on the Thermal Decomposition of Cyclopentadiene”, Int. J. Chem. Kinet., 36, 139-51 (2004).
403. Y. M. Choi and M. C. Lin, “Kinetics and Mechansism for the Reactions of Phenyl Radicals with Ketene and its Isotopomer: An Experimental and Computational Study”, ChemPhysChem., 5, 225-32 (2004).
404. Z. F. Xu and M. C. Lin, “Computational Study on the Kinetics and Mechanisms for the Reactions of HCO with HONO and HNOH”, Int. J. Chem. Kinet., 36, 178-87 (2004)
405. Z. F. Xu and M. C. Lin, “A Computational Study of the Kinetics and Mechanism for the Reaction of HCO with HNO”, Int. J. Chem. Kinet., 36, 205-15 (2004).
406. Y. M. Choi, J. Park and M. C. Lin, “Kinetics and Mechanism for the C6H5 + CH3CHO Reaction: A Computational and Experimental Study”, ChemPhysChem., 5, 661-68 (2004).
407. Z. F. Xu, J. Park and M. C. Lin, “Thermal Decomposition of Ethanol. III. Kinetics and Mechanism for the CH3 + C2H5OH Reaction”, J. Chem. Phys., 120, 6593 – 99 (2004).
408. R. S. Zhu, Z. F. Xu and M. C. Lin, “Ab Initio Study of Alkyl Radical Reactions: Combination and Disproportionation Reactions of CH3 with C2H5 and the Decomposition of Chemically Activated C3H8”, J. Chem. Phys., 120, 6566 – 73 (2004).
409. I. V. Tokmakov and M. C. Lin, “A Combined Quantum Chemical/RRKM-ME Computational Study of the Phenyl + Ethylene, Vinyl + Benzene and H + Styrene Reactions”, J. Phys. Chem. A, 108, 9697-714 (2004).
410. J. H. Wang and M. C. Lin, “Adsorption and Reaction of C2N2 on Si(100)-2×1: A Computational Study with Single- and Double-Dimer Cluster Models”, J. Phys. Chem. B, 108, 9189 – 97 (2004).
411. Y. M. Choi, J. Park, Liming Wang, and M. C. Lin, “Formation and decomposition of peroxyphenylvinyl radicals in the C6H5C2H2 + O2 reaction”, ChemPhysChem, 5, 1231-34 (2004).
412. J. H. Wang and M. C. Lin, “Low-Pressure Organometallic Chemical Vapor Deposition of Indium Nitride on Titanium Oxide Nanoparticles”, ChemPhysChem, 5, 1615-18 (2004).
413. C.-M. Tzeng, Y. M. Choi, C.-L. Huang, C.-K. Ni, Yuan T. Lee, and M. C. Lin, “Photodissociation of nitrosobenzene and decomposition of phenyl radical”, J. Phys. Chem. A, 108, 7928-35 (2004).
414. C.-W. Lu, Y.-J.Wu, Y.-P. Lee, R. S. Zhu and M. C. Lin, “Experimental and Theoretical Investigations of Rate Coefficients of the Reaction S(3P) + O2 in the Temperature range 298878 K”, J. Chem. Phys., 121, 8271-78 (2004).
415. R. S. Zhu and M. C. Lin, “Ab initio Studies of ClOx Reactions: Prediction of the Rate Constants of ClO + NO for the Forward and Reverse Processes”, ChemPhysChem, 5, 1864-70 (2004).
416. H. Ismail, J. Park, B. M. Wong, W. H. Green, Jr. and M. C. Lin, “A Theoretical and Experimental Kinetic Study of Phenyl Radical Addition to Butadiene”, Proc. Combust. Inst., 30, 1049 – 56 (2005).
417. Y. M. Choi and M. C. Lin, “Kinetics and Mechanisms for Reactions of HNO with CH3 and C6H5 Studied by Quantum-chemical and Statistical-theory Calculations”, Int. J. Chem. Kinet., 37, 261-74 (2005).
418. J. H. Wang and M. C. Lin, “Adsorption and Reaction of N2H4 on Si(100)-2 × 1: A Computational Study with Single- and Double-Dimer Cluster Models”, Surf. Sci., 579, 197-214 (2005).
419. C.-L. Huang, S. Y. Tseng, T. Y. Wang, N. S. Wang, Z. F. Xu and M. C. Lin, “Reaction Mechanism and Kinetics of the NCN + NO Reaction: Comparison of Theory and Experiment”, J. Chem. Phys., 122, 184321/1-184321/9 (2005).
420. Shucheng Xu and M. C. Lin, “A Computational Study on the Kinetics and Mechanism for the Unimolecular Decomposition of C6H5NO2 and the Related C6H5 + NO2 and C6H5O + NO Reactions”, J. Phys. Chem. B, 109, 8367-8373 (2005).
421. R. S. Zhu and M. C. Lin, “Ab initio Studies of ClOx Reactions: Prediction of the Rate Constants of ClO + NO2 for the Forward and Reverse Processes”, ChemPhysChem, 6, 1514-1521 (2005).
422. J. H. Wang, M. C. Lin and Y.-C. Sun, “Reactions of Hydrazoic Acid on TiO2 Nanoparticles: An Experimental and Computational Study”, J. Phys. Chem. B, 109, 5133–42 (2005).
423. R. S. Zhu and M. C. Lin, “Ab Initio Study of the Oxidation of NCN by O2”, Int. J. Chem. Kinet., 37, 593-98 (2005).
424. J. Park, I. V. Tokmakov and M. C. Lin, “Experimental and Computational Studies of the Phenyl Radical Reaction with Propyne”, ChemPhysChem, 6, 2075-85 (2005).
425. C.-W. Lu, S.-L. Chou, Y.-P. Lee, Shucheng Xu, Z. F. Xu and M. C. Lin, “Experimental and Theoretical Studies of Rate Coefficients for the Reaction O (3P) + CH3OH at High Temperatures”, J. Chem. Phys., 122, 244314/1-244314/11 (2005).
426. J. H. Wang and M. C. Lin, “Reactions of Trimethyl Indium on TiO2 Nanoparticles: An Experimental and Computational Study”, J. Phys. Chem. B, 109, 20858-67 (2005).
427. R. S. Zhu, J. Park and M. C. Lin, “Ab initio Kinetic Study of the Low Energy Paths of the HO + C2H4 Reaction”, Chem. Phys. Lett., 408, 25-30 (2005).
428. Z. F. Xu, H.-C. Hsu and M. C. Lin, “Ab Initio Kinetics of the HCO Reaction with NO: Abstraction vs. Association/Elimination Mechanism”, J. Chem. Phys., 122, 234308/1-234308/11 (2005).
429. I.V. Tokmakov, G.-S. Kim, V. V. Kislov, A. M. Mebel and M. C. Lin, “The Reaction of Phenyl Radical with Molecular Oxygen: A G2M Study of the Potential Energy Surface”, J. Phys. Chem. A, 109, 6114-27 (2005).
430. Z. F. Xu and M. C. Lin, “A DFT Computational Study of the C6H5 + C6H5NO Kinetics and Mechanism”, J. Phys. Chem. A, 109, 9054-60 (2005).
431. S. Xu, S. Irle, D. G. Musaev and M. C. Lin, “Water Clusters on Graphite: Methodology for Quantum Chemical A Priori Prediction of Reaction Rate Constants”, J. Phys. Chem. A, 109, 9563-72 (2005).
432. Z. F. Xu and M. C. Lin, “Ab Initio Kinetics for the Unimolecular Reaction C6H5OH  CO + C5H6”, J. Phys. Chem. A, 110, 1672-77 (2006).
433. Shucheng Xu, R. S. Zhu and M. C. Lin, “Ab Initio Study of the OH + CH2O Reaction: The Effect of the OH∙∙OCH2 Complex on the H-Abstraction Kinetics”, Int. J. Chem. Kinet, 38, 322-6 (2006).
434. J. H. Wang, Fe Bacalzo-Gladden and M. C. Lin, “A Computational Study of the Adsorption and Reactions of HN3 on Si(100)-2×1”, Surf. Sci., 600, 1113-24 (2006).
435. S. C. Xu, G. D. Musaev, S. Irle amd M. C. Lin, “Computational Studies of the Mechanisms for the W and W+ + H2O Reactions”, J. Phys. Chem. A, 110, 4495-01 (2006) .
436. Y. M. Choi, Charles Compson, M. C. Lin and Meilin Liu, “A mechanistic study for H2S decomposition on Ni- and Cu-based Anode Surfaces in Solid Oxide Fuel Cells”, Chem. Phys. Lett., 421, 179-83 (2006).
437. J. H. Wang, Meilin Liu and M. C. Lin, “Oygen Reduction in the SOFC Cathode of Ag/CeO2”, Solid Stae Ionics, 177, 939-47 (2006).
438. K. Xu, Z. F. Xu and M. C. Lin, “Ab Initio Kinetics of the FCO Reaction with NO”, J. Phys. Chem. A, 110, 6718-23 (2006).
439. J. H. Wang and M. C. Lin, “Reactions of HN3 and Trimethyl Indium on Rutile TiO2 (11O): A Computational Study on the Formation of the First Monolayer InN”, J. Phys. Chem. B, 110, 2263-70 (2006).
440. Y. M. Choi, Harry Abernathy, Hsin-Tsung Chen, M. C. Lin and Meilin Liu, “Characterization of O2-CeO2 interactions using in-situ Raman spectroscopy and first-principles calculations”, ChemPhysChem, 7, 1957-63 (2006).
441. C. W. Lu, W. J. Wu, Y.-P. Lee, R. S. Zhu and M. C. Lin, “Experimental and theoretical investigation of rate coefficients of the reaction S (3P) + OCS in the temperature range 298985 K”, J. Chem. Phys., 125, 164329/1-164329/10 (2006).
442. G. J. Nam, J. Park, I. V. Tokmakov and M. C. Lin, “Experimental and Theoretical Studies of the Phenyl Radical Reaction with Propene”, J. Phys. Chem. A, 110, 8729-35 (2006).
443. S. C. Chen, Shucheng Xu, Eric. W. G. Diau and M. C. Lin, “A Computational Study on the Kinetics and Mechanism for the Unimolecular Decomposition of o-Nitrotoluene”, J. Phys. Chem. A, 110, 10130-34 (2006).
444. R. S. Zhu and M. C. Lin, “A Computational Study on the Decomposition of NH4ClO4: Comparison of the Gas-Phase and Condensed-Phase Results”, Chem. Phys. Lett., 431, 272-77 (2006).
445. S. C. Xu, S. Irle, D. G. Musaev and M. C. Lin, “Quantum Chemical Prediction of Reaction Pathways and Rate Constants for Dissociative Adsorption of COx and NOx on the Graphite (0001) Surface”, J. Phys. Chem. B, 110, 21135-44 (2006).
446. Y. M. Choi, Charles Compson, M. C. Lin and Meilin Liu, “Ab initio Analysis of Sulfur Tolerance of Ni, Cu, Ni-Cu Alloys for Solid Oxide Fuel Cells”, J. Alloys and Compounds, 427, 25-9 (2007).
447. S. C. Xu, S. Irle, D. G. Musaev and M. C. Lin, “Quantum Chemical Study of the Dissociative Adsorption of OH and H2O on Pristine and Defective Graphite (0001) Surfaces: Reaction Mechanisms and Kinetics”, J. Phys. Chem. C, 111, 1355-65 (2007).
448. Z. F. Xu and M. C. Lin, “Computational Studies on the Kinetics and Mechanisms for NH3 Reactions with ClOx (x = 0 – 4) Radicals”, J. Phys. Chem. A, 111, 584-90 (2007).
449. H.-T. Chen, D. G. Musaev, S. Irle and M. C. Lin, “The Mechanisms of the Reactions of W and W+ with NOx (x = 1,2): A Computational Study”, J. Phys. Chem. A., 111, 982-91 (2007).
450. S. C. Xu and M. C. Lin, “Theoretical Study on the Kinetics for OH Reactions with CH3OH and C2H5OH”, Proc. Combust. Inst., 31, 159-66 (2007).
451. G. Nam, I. V. Tokmakov, J. Park and M. C. Lin, “Kinetics for the Reaction of Phenyl Radical with Phenylethyne and Phenylethene”, Proc. Combust. Inst., 31, 249-56 (2007).
452. M.-F. Lin, Y. T. Lee, C.-K. Ni, Shucheng Xu and M. C. Lin, “Photodissociation Dynamics of Nitrobenzene and o-Nitrotoluene”, J. Chem. Phys., 126, 064310 (2007).
453. Y. M. Choi, D. S. Mebane, M. C. Lin and Meilin Liu, “Oxygen Reduction on LaMnO3-based Cathode Materials in Solid Oxide Fuel Cells”, Chem. Mat., 19, 1690-99 (2007).
454. H. T. Chen, Y. M. Choi, Meilin Liu and M. C. Lin, “A Theoretical Study of Surface Reduction Mechanisms of CeO2 (111) and (110) by H2”, ChemPhysChem, 8, 849-55 (2007).
455. B. Bui, T. J. Tsay, M. C. Lin and C. F. Melius, “Theoretical and Experimental Studies of the Diketene System: Product Branching Decomposition Rate Constants and Energetics of Isomers”, Int. J. Chem. Kinet., 39, 580-90 (2007).
456. J. G. Chang, J. H. Wang and M. C. Lin, “A Computational Study on the Adsorption of BClx (x = 1–3) on TiO2 Anatase (101) and Rutile (110) Surfaces”, J. Phys. Chem. A, 111, 6746-54 (2007).
457. J. G. Chang, H.-T. Chen, Shucheng Xu and M. C. Lin, “A Computational Study on the Kinetics and Mechanisms for the Unimolecular Decomposition of Formic Acid and Oxalic Acid”, J. Phys. Chem. A, 111, 6789-97 (2007).
458. Y.-R. Tzeng, P. Raghunath, S.-C. Chen and M. C. Lin, “A Computational Study of Reaction Pathways for the Formation of Indium Nitride from Trimethylindium with HN3: Comparison of the Reaction with NH3 and that on TiO2 Rutile (110) Surface”, J. Phys. Chem. A, 111, 6781-88 (2007).
459. R. S. Zhu and M. C. Lin, “Ab Initio Study of the ClO + NH2 Reaction: Prediction of the Total Rate Constant and Product Branching Ratios”, J. Phys. Chem. A, 111. 3977-83 (2007).
460. D. G. Musaev, Stephan Irle, and M. C. Lin, “The Mechanisms of the Reactions of W and W+ with COx (x = 1, 2): A Computational Study”, J. Phys. Chem. A, 111, 6665-73 (2007).
461. J. Park, I. V. Tokmakov and M. C. Lin, “Experimental and Computational Studies of the Phenyl Radical Reaction with Allene”, J. Phys. Chem. A, 111, 6881-89 (2007).
462. Y. M. Choi, M. C. Lin and Meilin Liu, “Computational Study of Catalytic Mechanism toward Oxygen Reduction on La0.5Sr0.5MnO3 in Solid Oxide Fuel Cells”, Angew. Chem., I.E., 46, 7214-19 (2007).
463. P. Raghunath and M. C. Lin, “Computational Study on the Mechanisms and Energetics of Trimethylindium Reactions with H2O and H2S”, J. Phys. Chem. A, 111, 6481-88 (2007).
464. R. S. Zhu and M. C. Lin, “Ab initio Study on the Oxidation of NCN by O (3P): Prediction of the Total Rate Constant and Product Branching Ratios”, J. Phys. Chem. A, 111, 6766-71 (2007).
465. C.-W. Wu, Y.-P. Lee, Shucheng Xu and M. C. Lin, “Experimental and Theoretical Studies of Rate Coefficients for the Reaction O(3P) + C2H5OH at High Temperatures”, J. Phys. Chem. A, 111, 6693-6703 (2007).
466. Z. F. Xu and M. C. Lin, “Ab initio Study on the Kinetics and Mechanisms for O3 Reactions with HO2 and HNO”, Chem. Phys. Lett., 440, 12-18 (2007).
467. H.-T. Chen, YongMan Choi, Meilin Liu, and M. C. Lin, “A First-principles Analysis for Sulfur Tolerance of CeO2 in Solid Oxide Fuel Cells”, J. Phys. Chem. C, 111, 11117-11122 (2007).
468. S. C. Xu and M. C. Lin, “Ab initio Chemical Kinetics for the OH + HNCN Reaction”, J. Phys. Chem. A, 111, 6730-40 (2007).
469. C.-M. Tseng, Y. T. Lee, M.-F. Lin, C.-K. Ni, S.-Y. Liu, Y.-P. Lee, Z. F. Xu and M. C. Lin, “Photodissociation Dynamics of Phenol”, J. Phys. Chem. A, 111, 9463-70 (2007).
470. R. S. Zhu, J. H. Wang and M. C. Lin, “Sublimation of Ammonium Salts: A Novel Mechanism Revealed by a First-Principles Study of the NH4Cl System”, J. Phys. Chem. C, 111, 13831-38 (2007).
471. K. Xu, Z. F. Xu and M. C. Lin, “Ab initio Kinetic Prediction of Branching Rate Constants for Reactions of H Atoms with CH3O and CH2OH”, Molecular Physics, 105, 2763-76 (2007).
472. H.-T. Chen, D. G. Musaev and M. C. Lin, “Adsorption and Dissociation of H2O on a W(111) surface : A Computational Study”, J. Phys. Chem. C, 111, 17333-339 (2007)
473. H.-T. Chen, D. G. Musaev and M. C. Lin, “Adsorption and Dissociation of COx (x=1, 2) on W (111) surface : A Computational Study”, J. Phys. Chem. C, 112, 3341-48 (2008)
474. T. M. Paronyan, A. M. Kechiantz and M. C. Lin, “Highly Active Nanocrystalline TiO2 Photoelectrodes”, Nanotechnology, 19, 115201 (2008)
475. P. Raghunath and M. C. Lin, “Adsorption Configurations and Reactions of Boric Acid on a TiO2 Anatase (101) Surface”, J. Phys. Chem. C, 112, 8276-87 (2008).
476. H.-L. Chen, S.-P. Ju, H.-T. Chen, D. G. Musaev and M. C. Lin, “Adsorption and Dissociation of the HCl and Cl2 Molecules on W(111) Surface : A Computational Study”, J. Phys. Chem. C, 112(32), 12342-12348 (2008).
477. H.-T. Chen, J.-G. Chang, D. G. Musaev and M. C. Lin, “A Computational Study on Kinetics and Mechanisms of Unimolecular Decomposition of Succinic Acid and Its Anhydride”, J. Phys. Chem. A, 112, 6621-29 (2008).
478. R. S. Zhu and M. C. Lin, “The Mechanism and Kinetics for Ammonium Perchlorate Sublimation: A First-Principles Study”, J. Phys. Chem. C, 112(37), 14481-85 (2008).
479. H.-F. Chen, J. M. Lin, Y.-P. Lee, J. F. Ogilvie, Z. F. Xu and M. C. Lin, “Reaction Dynamics of O (1D) + C6H6 and C6D6”, J. Chem. Phys., 129, 174303 (2008).
480. T.-J. Yang, N. S. Wang, L. C. Lee, Z. F. Xu and M. C. Lin, “Kinetics and Mechanism of the NCN + NO2 Reaction Studied by Experiment and Theory”, J. Phys. Chem. A, 112(41), 10185-10192 (2008).
481. T. M. Paronyan, A. M. Kechiantz, and M. C. Lin, “Highly Efficient Dye-sensitized Solar Cells Based on the Discharged TiO2 Nanoparticles”, Armenian Journal of Physics, 1, 151-154 (2008)
482. J. Park and M. C. Lin, “Temperature and Pressure Effects on Formation and Decomposition of Phenylvinylperoxy Radicals in the C6H5C2H2 + O2 Reaction”, Proceedings of the Combustion Institute, 32, 305-310 (2009).
483. Shucheng Xu and M. C. Lin, “Ab initio Chemical Kinetics for the Reactions of HNCN with O(3P) and O2”, Proceedings of the Combustion Institute, 32, 99-106 (2009).
484. R. S. Zhu, Hue M.T. Nguyen and M. C. Lin, “Ab Initio Study on the Oxidation of NCN by OH: Prediction of the Total Rate Constant and Individual Rate Constants”, J. Phys, Chem. A, 113, 298-304 (2009).
485. P. Raghunath and M. C. Lin, “Adsorption Configurations and Decomposition Pathways of Boric Acid on TiO2 Rutile (110) Surface: A Computational Study”, J. Phys. Chem. C, 113, 3751-3762 (2009).
486. S.-Y. Chen, M.-C. Wu, C.-S. Lee and M. C. Lin, “Synthesis of In(OH)3 and In2O3 nanomaterials incorporating Au”, J. Mater. Sci., 44, 794-98 (2009)
487. H.-T. Chen, H.-L. Chen, S.-P. Ju, D. G. Musaev and M. C. Lin, “Density-Functional Studies of the Adsorption and Dissociation of NOx (x=1, 2) molecules on W(111) Surface”, J. Phys. Chem. C, 113, 5300-07 (2009).
488. C. Y. Chang, H.-T. Chen and M. C. Lin, “Adsorption Configurations and Reactions of Nitric Acid on TiO2 Rutile (110) and Anatase (101) surfaces”, J. Phys. Chem. C, 113, 6140-49 (2009).
489. Y.-C. Chen, K.-B. Chen, W.-T. Chen, S.-F. Weng, C.-S. Lee and M. C. Lin, “Direct Synthesis of Zr-doped Ceria Nanotubes”, J. Phys. Chem. C, 113, 5031-34 (2009).
490. J.-H. Wang, C. S. Lee and M. C. Lin, “Mechanism of Ethanol Reforming: Theoretical Foundations”, J. Phys. Chem. C, 113, 6681-88 (2009).
491. P. Raghunath and M. C. Lin, “A Computational Study on the Adsorption Configurations and Reactions of Phosphorous acid on TiO2 Anatase (101) and Rutile (110) Surfaces”, J. Phys. Chem. C, 113, 8394-8406 (2009).
492. Y. M. Choi, M. E. Lynch, M. C. Lin and M. Liu, “Prediction of O2 dissociation kinetics on LaMnO3-based cathode materials for solid oxide fuel cells”, J. Phys. Chem. C, 113, 7290-97 (2009).
493. J. Park, Z. F. Xu and M. C. Lin, “Kinetic Study of the C10H7 + O2 Reaction”, J. Phys. Chem. A, 113, 5348-54 (2009).
494. S.-Y. Tzeng, P.-H. Chen, N. S. Wang, L. C. Lee, Z. F. Xu and M. C. Lin, “Kinetics and Mechanism of the CN + NCO->NCN + CO Reaction Studied by Experiment and Theory”, J. Phys. Chem. A, 113, 6314-25 (2009).
495. Z. F. Xu, Kun Xu and M. C. Lin, “Ab Initio Kinetics for Decomposition/Isomerization Reactions of C2H5O1 Radicals”, ChemPhysChem, 10, 972-82 (2009).
496. Shucheng Xu and M. C. Lin, “Ab Initio Chemical Kinetics for the NH2 + HNOx Reactions: (I) Kinetics and Mechanism for NH2 + HNO”, Int. J. Chem. Kinet., 41(11), 667-77 (2009).
497. S. C. Xu and M. C. Lin, “Ab initio Chemical Kinetics for the NH2 + HNOx Reactions: II. Kinetics and Mechanism for NH2 + HONO”, Int. J. Chem. Kinet., 41(11), 678-88 (2009).
498. Z. F. Xu and M. C. Lin, “Computational Studies on Metathetical and Redox Processes of HOCl in the Gas Phase: (I) Reactions with H, O, HO and HO2”, J. Phys. Chem. A, 113, 8811-17 (2009).
499. R. S. Zhu and M. C. Lin, “CH3NO2 Decomposition/Isomerization Mechanism and Product Branching Ratios: An Ab Initio Chemical Kinetic Study”, Chem. Phys. Lett., 478(1-3), 11-16 (2009).
500. S. C. Xu, S. Irle, D. G. Musaev and M. C. Lin, “Quantum Chemical Prediction of Reaction Pathways and Rate Constants for Dissociative Adsorption of CO and CO2 on the Defective Graphite (0001) Surfaces”, J. Phys. Chem. A, 113, 18772-777 (2009).
501. J. Park, Hue M. T. Nguyen, Z. F. Xu, and M. C. Lin, “Kinetic study of the 2-naphthyl (C10H7) radical reaction with C2H2”, J. Phys. Chem. A, 113, 12199-206 (2009).
502. H. C. Chiang, N. S. Wang, S. Tsuchiya, H. T. Chen, Y.-P. Lee and M. C. Lin, “Reaction Dynamics of O(1D, 3p) + OCS Studied with Time-Resolved FTIR Spectroscopy and Quantum-Chemical Calculation”, J. Phys. Chem. A, 113, 13260-72 (2009).
503. J. Park and M. C. Lin, “Thermal Decomposition of Gaseous Ammonium Nitrate at Low Pressure: Kinetic Modeling of Product Formation and Heterogeneous Decomposition of Nitric Acid”, J. Phys. Chem. A, 113, 13556-61 (2009).
504. W. F. Huang, Hsin-Tsung Chen and M. C. Lin, “Density-Functional Theory Study of the Adsorption and Reaction of H2S on TiO2 Rutile (110) and Anatase (101) Surfaces”, J. Phys. Chem. C, 113(47), 20411-420 (2009).
505. Y. M. Choi, M. C. Lin and Meilin Liu, “Rational Design of Novel Cathode Materials in Solid Oxide Fuel Cells using First-Principles Simulations”, J. Power Sources, 195, 1441-45 (2010).
506. Z. F. Xu and M. C. Lin, “Computational Studies on Metathetical and Redox Processes of HOCl in the Gas Phase: (II) Reactions with ClOx (x = 1−4)”, Phys. Chem. A, 114(2), 833-838 (2010)
507. S. C. Xu and M. C. Lin, “Ab initio Chemical Kinetics for the NH2 + HNOx Reactions: III. Kinetics and Mechanism for NH2 + HONO2”, Int. J. Chem. Kinet., 42(2), 69-78 (2010).
508. R. S. Zhu and M. C. Lin, “An Ab Initio Chemical Kinetic Study on the Reactions of H, OH and Cl with HOClO3”, Int. J. Chem. Kinet., 42(4), 253-261 (2010).
509. S. Y. Wu, P. Raghunath, J. S. Wu and M.C. Lin, “Ab initio Chemical Kinetic Study for Reactions of H Atoms with SiH4 and Si2H6: Comparison of Theory and Experiment”, J. Phys. Chem. A, 114(1), 633-639 (2010).
510. R. S. Zhu, S. C. Xu and M. C. Lin, “Ab Initio Chemical Kinetics for the Reactions of N2 with Singlet and Triplet C2O Radicals”, Chemical Physics Letters, 488, 121-125 (2010).
511. D. H. Varma, P. Raghunath and M. C. Lin, “Ab Initio Chemical Kinetics for the Reaction of H atom with Si3H8”, J. Phys. Chem. A, 114, 3642-48 (2010).
512. K.-W. Lu, H. Matsui, C.-L. Huang, P. Raghunath, N.-S. Wang and M. C. Lin, A Shock Tube Study on the Thermal Decomposition of CH3OH”, J. Phys. Chem. A, 114, 5493-5502 (2010).
513. Z. F. Xu and M. C. Lin, “Computational Studies on Metathetical and Redox Processes of HOCl in the Gas Phase: (III) Its Self-Reaction and Interactions with HNOx (x = 1-3)”, J. Phys. Chem. A, 114, 5320-26 (2010).
514. J. Park, Sonya Cates and M. C. Lin, “Photolytically and Thermally Initiated Reactions of NH3 with NOx (x=1,2)”, Combust. Sci. Technol., 182, 365-79 (2010).
515. S. C. Xu and M. C. Lin, “Ab Initio Chemical Kinetics for Singlet CH2 Reaction with N2 and the Related Decomposition of Diazomethane”, J. Phys. Chem. A, 114, 5195-5204 (2010).
516. S. C. Xu, S. Irle and M. C. Lin, “Quantum Chemical Prediction of Reaction Pathways and Rate Constants for Reactions of NO and NO2 with Monovacancy Defects on Grapite (0001) Surfaces”, J. Phys. Chem. C, 114, 8375-8382 (2010).
517. W.-T. Chen, K.-B. Chen, M.-F. Wang, S.-F. Weng, C.-S. Lee and M. C. Lin, “Enhanced Catalytic Activity of Ce1-xMxO2 (M = Ti, Zr, and Hf) Solid Solution with Controlled Morphologies”, Chem. Comm., 46, 3286-3288 (2010).
518. Z. F. Xu and M. C. Lin, “Ab Initio Chemical Kinetic Study on Cl + ClO and Related Reverse Processes”, J. Phys. Chem. A, 114, 11477-82 (2010).
519. P. Raghunath and M. C. Lin, “Ab Initio Chemical Kinetics for SiH3 Reactions with SixH2x+2 (x=1-4)”, J. Phys. Chem. A, 114, 13353–13361 (2010).
520. R. S. Zhu and M. C. Lin, “Ab Initio Chemical Kinetic Study on the Reactions of ClO with C2H2 and C2H4”, J. Phys. Chem. A, 114(51), 13395-13401 (2010).
521. R. S. Zhu and M. C. Lin, “First-Principles Study of Water Effect on the Sublimation of Ammonium Perchlorate”, Int. J. Energ. Mater. Chem. Propul., 9(6), 109 (2010).
522. Z. F. Xu, Kun Xu and M. C. Lin*, “Thermal Decomposition of Ethanol. IV. Ab Initio Chemical Kinetics for Reactions of H Atoms with CH3CH2O and CH3CHOH Radicals”, J. Phys. Chem. A, 115(15), 3509-3522 (2011).
523. K. Freel, J. Park, M. C. Lin and M. C. Heaven, “Cavity ring-down spectroscopy of the phenyl radical in a pulsed discharge supersonic jet expansion”, Chem. Phys. Lett., 507(4-6), 216-220 (2011).
524. R. S. Zhu and M. C. Lin, “Ab initio chemical kinetics for ClO reactions with HOx, ClOx and NOx (x=1, 2): A Review”, Comput. Theoret. Chem., 965(2-3), 328-339 (2011).
525. R. S. Zhu and M. C. Lin, “Ab Initio Chemical Kinetics for Reactions of ClO with Cl2O2 Isomers”, J. Chem. Phys., 134(5), 054307/1-054307/6 (2011).
526. W. F. Huang, P. Raghunath, and M. C. Lin, “Computational Study on the Reactions of H2O2 on TiO2 Anatase (101) and Rutile (110) Surfaces”, J. Comp. Chem., 32(6), 1065-1081 (2011).
527. T.-T. Wang, P. Raghunath, Y.-F. Lu, Y.-C. Liu, C.-H. Chiou and M. C. Lin, “Observation of Significant Enhancement in the efficiency of a DSSC by InN Nanoparticles over TiO2-Nanoparticle Films”, Chem. Phys. Lett., 510(1-3), 126-130 (2011).
528. H.-T. Chen, P. Raghunath and M. C. Lin, “Computational Investigation of O2 Reduction and Diffusion on 25% Sr-doped LaMnO3 Cathodes in Solid Oxide Fuel Cells”, Langmuir, 27(11), 6787-93 (2011).
529. C.-W. Wu, C.-W. Lu, Y.-P. Lee, Y.-J. Wu, B.-M. Cheng and M. C. Lin, “Blue/Near UV light emission from hybrid InN/TiO2 nanoparticle films”, J. Mater. Chem., 21, 8540-42 (2011).
530. C.-W. Wu, H. Matsui, N.-S. Wang and M. C. Lin, “Shock Tube Study on the Thermal Decomposition of Ethanol”, J. Phys. Chem. A, 115, 8086-8092 (2011).
531. Z. Cheng, J.-H. Wang, YongMan Choi, Lei Yang, M. C. Lin and Meilin Liu, “From Ni-YSZ to Sulfur-Tolerant Anode Materials for SOFCs: Electrochemical Behavior, in situ Characterization, Modeling, and Future Perspectives”, Energy and Eviron. Sci., 4, 4380-4409 (2011).
532. A. Bagchi, Y.-H. Huang, Z. F. Xu, P. Raghunath, Y. T. Lee, C.-K. Ni, M. C. Lin and Y.-P. Lee, “Photodissociation dynamics of benzaldehyde (C6H5CHO) at 266, 248, and 193 nm”, Chemistry-An Asian Journal, 6 (11), 2961-2976 (2011).
533. M. L. Hause, N. Herath, Rongshun Zhu, M. C. Lin and A. G. Suits, “Roaming-mediated isomerization in the photodissociation of nitrobenzene”, Nature Chemistry, 3, 932–937 (2011)
534. S.-T. Chang, C.-H. Wang, H.-Y. Du, H.-C. Hsu, C.-M. Kang, C.-C. Chen, C.-S. Wu, S.-C. Yen, W.-F. Huang, L.-C. Chen, M. C. Lin and K.-H. Chen, “Vitalizing Fuel Cells with Vitamin: Pyrolyzed Vitamin B12 as Non-precious Catalyst for Enhanced Oxygen Reduction Reaction of Polymer Electrolyte Fuel Cell”, Energy and Eviron. Sci., 5, 5305-5314 (2012)
535. Shucheng Xu, H.-L. Chen and M. C. Lin, “Quantum Chemical Prediction of Reaction Pathways and Rate Constants for the Reactions of Ox (x = 1 and 2) with Pristine and Defective Graphite (0001) Surfaces”, J. Phys. Chem. C, 116 (2), 1841–1849 (2012).
536. K.-Y. Lai, Rongshun Zhu and M. C. Lin, “Why Mixtures of Hydrazine and Dinitrogen Tetroxide Are Hypergolic?“, Chem. Phys. Lett., 537, 33-37 (2012).
537. R. S. Zhu, K.-Y. Lai and M. C. Lin, “Ab Initio Chemical Kinetics for the Hydrolysis of N2O4 isomers in the Gas Phase”, J. Phys. Chem. A, 116 (18), 4466–4472 (2012).
538. M. H. Weng, H.-T. Chen, Y.-C Wang, S.-P. Ju, J.-G. Chang and M. C. Lin, “Kinetics and mechanisms for the adsorption, dissociation, and diffusion of Hydrogen in Ni and Ni/YSZ slabs: A DFT study”, Langmuir, 28, 5596-5605 (2012).
539. W.-F. Huang, H.-T. Chen and M. C. Lin, “The Adsorption and Reactions of SiClx (x=0-4) on Hydroxylated TiO2 Anatase (101) Surfaces: A Computational Study”, Comput. Theoret. Chem., 993, 45-52(2012).
540. P. Raghunath and M. C. Lin, “Ab initio chemical kinetics for the ClOO + NO reaction: Effects of temperature and pressure on product branching formation”, J. Chem. Phys., 137, 014315 (2012).
541. R. S. Zhu and M. C. Lin, “Kinetics and Mechanism of AP Combustion Initiation: A Complete Quantum Chemical Prediction for Reactions in Three Phases”, Japan Society for Aeronautical and Space Sciences (JSASS), Vol. 10, No. ists28, pp. Pa_77-84 (2012).
542. C.-K. Huang, Z.-F. Xu, M. Nakajima, H. M. T. Nguyen, M. C. Lin, S. Tsuchiya and Y.-P. Lee, “Dynamics of the reactions of O(1D) with CD3OH and CH3OD studied with time-resolved Fourier-transform IR spectroscopy”, J. Chem. Phys., 137, 164307 (2012).
543. R. S. Zhu, H.-L. Chen and M. C. Lin, “The Mechanism and Kinetics for Ammonium Dinitramide (ADN) Sublimation: A First-Principles Study”, J. Phys. Chem. A, 116(44), 10836-41 (2012)
544. J. Park, Z. F. Xu, K. Xu and M. C. Lin, “Kinetics for the Reactions of Phenyl with Methanol and Ethanol: Comparison of Theory and Experiment”, Proc Combust. Instit., 34, 473-482 (2013)
545. W.-F. Huang, Pin-Jiun Wu, Wei-Chih Hsu, Chih-Wei Wu, K. S. Liang and M. C. Lin, “Carbon-doped TiO2 nanotubes: Experimental and computational studies”, J. Theor. Compt. Chem., 12(3), 1350007 (2013)
546. P. Raghunath, W. F. Huang and M. C. Lin, “Quantum Chemical Elucidation of the Mechanism for Hydrogenation of TiO2 Anatase Crystals”, J. Chem. Phys., 138(15), 154705 (2013)
547. P. Raghunath, Y. M. Lee, S. Y. Wu, J. S. Wu and M. C. Lin*, “Ab Initio Chemical Kinetics for Reactions of H Atoms with SiHx (x = 1-3) Radicals and Related Unimolecular Decomposition Processes”, Int. Journal of Quantum Chemistry, 113, 1735-46 (2013)
548. W.-S. Teng, L. V. Moskaleva, H.-L. Chen and M. C. Lin, “Ab Initio Chemical Kinetics for H + NCN: Prediction of NCN Heat of Formation and Reaction Product Branching via Doublet and Quartet Surfaces”, J. Phys. Chem. A, 117 (28), 5775–5784 (2013)
549. W. F. Huang, H. T. Chen* and M. C. Lin*, “Computational Investigation of the Adsorption and Reactions of SiHx (x=0-4) on TiO2 Anatase (101) and Rutile (110) Surfaces”, Int J. Quantum Chem., 113 (12), 1696–1708 (2013)
550. R. S. Zhu, P. Raghunath and M. C. Lin, “Effect of Roaming Transition States Upon Product Branching in the Thermal Decomposition of CH3NO2”, J. Phys. chem. A, 117(32), 7308–7313 (2013).
551. K. A. Freel, M. N. Sullivan, J. Park, M. C. Lin and M. C. Heaven, “Structure in the Visible Absorption Bands of Jet-Cooled Phenylperoxy Radicals”, J. Phys. Chem. A, 117(32), 7484–7491 (2013).
552. M. V. R. Raju, P. Raghunath, M. C. Lin and H. C. Lin, “An Acid-Base Controllable Hierarchical Nanostructure from a NIR-Absorbing Conjugated Polyrotaxane-Based Optical Molecular Switch”, Macromolecules, 46, 6731–6743 (2013).
553. P. Raghunath and M. C. Lin, “Ab initio chemical kinetics for SiH2 + Si2H6 and SiH3 + Si2H5 reactions and the related unimolecular decomposition of Si3H8 under a-Si:H-CVD conditions”, J. Phys. Chem. A, 117(42), 10811–10823 (2013).
554. S. Y. Wu, Y. M. Lee, J. S. Wu and M. C. Lin, “Ab Initio Chemical Kinetics for the Unimolecular Decomposition of Si2H5 Radical and Related Reverse Bimolecular Reactions”, Int. J. Quantum Chem., 114(4), 278-288 (2014).
555. V-T Mai Tam, P. Raghunath, Xuan T. Le, Lam K. Huynh, Pham-Cam Nam and M. C. Lin, “Ab Initio Chemical Kinetics for the HCCO + OH Reaction”, Chem. Phys. Lett., 592, 175-181 (2014).
556. P. Raghunath, N. T. Nghia and M. C. Lin, “Ab Initio Chemical Kinetics of Key Processes in the Hypergolic Ignition of Hydrazine and Nitrogen Tetroxide”, Adv. Quantum Chem., 69, 253-301 (2014).
557. H. M. T. Nguyen, H.-Y. Tang, W.-F. Huang and M. C. Lin, “Mechanisms for Reactions of Trimethylaluminum with Molecular Oxygen and Water”, Computational and Theoretical Chemistry, 1035, 39-43 (2014).
558. Y.-T. Su, H.-Y. Lin, R. Putikam, H. Matsui, M. C. Lin* and Y.-P. Lee*, “Extremely rapid self-reaction of the simplest Criegee intermediate CH2OO and its implications in atmospheric chemistry”, Nature chemistry, 6, 477-483 (2014).
559. S.-C. Lan, P. Raghunath, Y.-H. Lu, Y.-C. Wang, S.-W. Lin, C.-M. Liu, J.-M. Jiang, M. C. Lin and K.-H. Wei, “Symmetry and Coplanarity of Organic Molecules Affect their Packing and Photovoltaic Properties in Solution-Processed Solar Cells”, ACS Applied Materials & Interfaces, 6(12), 9298-306 (2014).
560. P. Raghunath, Y.-H. Lin and M. C. Lin, “Ab Initio Chemical Kinetics for the N2H4 + NOx (x=1-3) Reactions and Related Reverse Processes”, Computational and Theoretical Chemistry, 1046, 73-80 (2014).
561. S.-C. Huang, N. T. Nghia, R. Putikam, H. M. T. Nguyen, M. C. Lin, S. Tsuchiya and Y.-P. Lee, “Reaction Dynamics of O(1D)+HCOOD/DCOOH Investigated with Time-resolved Fourier-transform Infrared Emission Spectroscopy”, The Journal of Chemical Physics, 141, 154313 (2014)
562. J.-M. Jiang, P. Raghunath, H.-K. Lin, Y.-C. Lin, M. C. Lin and K.-H. Wei, “Location and number of selenium atoms in two-dimensional conjugated polymers affects their band gap energies and photovoltaic performance”, Macromolecules, 47 (20), 7070–7080 (2014)
563. A. Singh, R. Singh, M. Shellaiah, E. C. Prakash, H.-C. Chang, P. Raghunath, M. C. Lin and H. C. Lin, “A New Pyrene-Based Aggregation Induced Ratiometric Emission Probe for Selective Detections of Trivalent Metal Ions and its Living Cell Application”, Sensors and Actuators B: Chemical, 207, 338-345 (2015)
564. Y. M. Choi, V. Srinivasadesikan, M. C. Lin and J. Kang, “A Dihydrogen Phosphate Selective Anion Receptor Based on Acylhydrazone and Pyrazole”, New Journal of Chemistry, 39, 650-658 (2015).
565. C. L. Wei, T. C. Chen, P. Raghunath, M. C. Lin and H. C. Lin, “Novel Asymmetrical Single- and Double-Chiral Liquid Crystal Diads with Wide Blue Phase Ranges”, RSC Advances, 5, 4615-4622 (2015).
566. T.-N. Nguyen, R. Putikam and M. C. Lin, “A Novel and Facile Decay Path of Criegee Intermediates by Intramolecular Insertion Reactions via Roaming Transition States”, J. Chemical Physics, 142(12),124312 (2015)
567. V. Srinivasadesikan, P. Raghunath and M. C. Lin, “Quantum chemical investigation on the role of Li adsorbed on anatase (101) surface nano-materials on the storage of molecular hydrogen”, Journal of Molecular Modeling, 21(6):142 (2015)
568. C. L. Wei, T. C. Chen, P. Raghunath, M. C. Lin and H. C. Lin, “Hydrogen-Bonded Effects on Supramolecular Blue Phase Liquid Crystal Dimeric Complexes”, RSC Adv., 5, 54629 (2015).
569. Z. F. Xu, P. Raghunath and M. C. Lin, “Ab initio chemical kinetics for the CH3 + O (3p) reaction and related isomerization/decomposition of CH3O and CH2OH radicals”, J. Phys. Chem. A, 119(28),7404-7417 (2015).
570. C.-C. Chuang, C.-K. Lin, T. T. Wang, V. Srinivasadesikan, P. Raghunath and M. C. Lin, “Computational and Experimental Studies on the Effect of Hydrogenation of Ni-doped TiO2 Anatase Nanoparticles for the Application of Water Splitting”, RSC Adv., 5, 81371-81377 (2015).
571. B.-R. Gu, P. Raghunath, G. C. Cheng, Y. S. Chen, J. S. Wu and M. C. Lin, “Kinetic Modeling of Hypergolic Ignition of N2H4-NTO Mixtures at Low Temperatures and the Sawyer-Glassman Experiment on Reactions of N2H4 with NOx(x=1,2) at High Temperatures”, Int J. Energetic Mater. and Chemical Propulsion, 14(5), 357–379 (2015)
572. T. Senthil Pandian, V. Srinivasadesikan, M. C. Lin and Jongmin Kang, “Nitrite Selective Anion Receptor Based on 1-Methyl-1H-perimidine”, Tetrahedron, 71(40), 7782-7788 (2015).
573. T. S. Pandian, V. Srinivasadesikan, M. C. Lin and Jongmin Kang, “A Selective Acetate Anion Binding Receptor: Participation via Cationic CH3 Donors”, Tetrahedron, 71(43), 8350-8356 (2015).
574. J.-M. Jiang, P. Raghunth, Y.-C. Lin, H.-K. Lin, C.-L. Ko, Y.-W. Su, M. C. Lin and K.-H. Wei, “Linear solubilizing side chain substituents enhance the photovoltaic properties of two-dimensional conjugated benzodithiophene-based polymers”, Polymer, 79, 262–270 (2015)
575. R. Arumugaperumal, V. Srinivasadesikan, M. V. R. Raju, M.-C. Lin, T. Shukla, R. Singh and H.-C. Lin, “Acid/Base and H2PO4- Controllable High Contrast Optical Molecular Switches with a Novel BODIPY Functionalized [2]Rotaxane”, ACS Applied Materials & Interfaces, 7, 26491-26503 (2015)
576. M. Shellaiah, T. Simon, V. Srinivasadesikan, C.-C. Lin, K. W. Sun, F. H. Ko, M. C. Lin and H.-C. Lin, “Novel pyrene containing monomeric and dimeric supramolecular AIEE active nano-probes utilized in selective “off–on” trivalent metal and highly acidic pH sensing with live cell applications”, J. Mater. Chem. C ,4, 2056-2071 (2016)
577. M. K. Pola, M. V. R. Raju, C. M. Lin, R. Putikam, M. C. Lin, C. P. Epperla, H. C. Chang, S. Y, Chen and H. C. Lin, “A Fully-Aqueous Red-Fluorescent Probe for Selective Optical Sensing of Hg2+ and Its Application in Living Cells”, Dyes Pigments, 130, 256-265 (2016).
578. Y. H. Lin, P. Raghunath and M. C. Lin, “A computational study on the energetics and mechanisms for the dissociative adsorption of SiHx (x=1-4) on W(111) surface”, Applied Surface science. 362, 551-556 (2016).
579. P.-C. Nam, P. Raghunath, L. K. Huynh, S. Xu and M. C. Lin, “Ab initio Chemical Kinetics for the HCCO + H Reaction”, Combustion Science and Technology, 188, 1095-1114 (2016).
580. J. Jo, P. Raghunath, M. C. Lin, J. Kang, “Anion receptors based on 4-Nitrophenylhydrazone”, Tetrahedron Letters, 57, 3208-3214 (2016)
581. T. N-M Le, P. Raghunath, L. K. Huynh and M. C. Lin, “A Computational Study on the Adsorption Configurations and Reactions of SiHx(x=1-4) on Clean and H-covered Si(100) Surfaces”, Applied Surface Science, 387, 546-556 (2016)
582. T. Simon, M. Shellaiah, V. Srinivasadesikan, C. C. Lin, F. H. Ko, K. W. Sun and M. C. Lin, “A simple pyrene based AIEE active schiff base probe for selective naked eye and fluoresence off–on detection of trivalent cations with live cell application”, Sensors and Actuators B, 231, 18-29 (2016)
583. T. Simon, M. Shellaiah, V. Srinivasadesikan, C.-C. Lin, F. H. Ko, K. W. Sun and M. C. Lin, “Novel anthracene and pyridine-containing schiff base probe for selective “OFF-ON” fluorescent determination of Cu2+ ions towards live cell application”, New J. Chem., 40, 6101-6108 (2016)
584. C.-C. Han, L.-H. Yang, P. Raghunath, M.-C. Lin, R. Kumara and H.-C. Lin, “Lateral fluoro-substitution and chiral effects on supramolecular liquid crystals containing rod-like and H-bonded bent-core mesogens”, RSC Adv., 6, 110482-492 (2016)
585. C.-K. Lin, C.-C. Chuang, P. Raghunath, V. Srinivasadesikan, T. T. Wang and M. C. Lin, “Quantum-chemical Prediction of the Effects of Ni-Loading on the Hydrogenation and Water-Splitting Efficiency of TiO2 Nanoparticles with an Experimental Test”, Chemical Physics Letters, 667, 278-283 (2017)
586. T. Shukla, R. Arumugaperumal, P. Raghunath, M.-C. Lin, C.-M. Lin, H.-C. Lin, “Novel supramolecular conjugated polyrotaxane as an acid-base controllable optical molecular switch”, Sensors and Actuators B, 243, 84–95 (2017)
587. M. K. Pola, K. M. Boopathi, H. Padhy, P. Raghunath, A. Singh, M. C. Lin, C.-W. Chu, H.-C. Lin, “Synthesis of fluorinated benzotriazole (BTZ)- and benzodithiophene (BDT)-based low-bandgap conjugated polymers for solar cell applications”, Dyes and Pigments, 139, 349-360 (2017)
588. T.-N. Nguyen, Y.-M. Lee, J.-S. Wu and M. C. Lin, “Capturing of H and H2 by SiHx+ (x≤4) ions: Comparison between Langevin and quantum statistical models”, Japanese Journal of Applied Physics, 56, 026101 (2017)
589. T.-N. Nguyen and M. C. Lin, “Ab Initio Chemical Kinetics for SiHx reactions with Si2Hy (x = 1,2,3,4; y = 6,5,4,3; x + y =7) under a-Si:H CVD Conditions”, International Journal of Chemical Kinetics, 49(3), 197-208 (2017)
590. P. Raghunath, Y.-P. Lee and M. C. Lin, “Computational Chemical Kinetics for the Reaction of Criegee Intermediate CH2OO with HNO3 and Its Catalytic Conversion to OH and HCO”, J. Phys. Chem. A,121(20), 3871-3878 (2017)
591. T.-T. Wang, P. Raghunath, Y.-G. Lin, M. C. Lin “Synergistic Effect of Hydrogenation and Thiocyanate Treatments on Ag-loaded TiO2 Nanoparticles for Solar-to-Hydrogen Conversion”, J. Phys. Chem. C, 121, 9681–9690 (2017)
592. T. N. Nguyen, Y. M. Lee, J. S. Wu and M. C. Lin, “Ab Initio Chemical Kinetics for the Thermal Decomposition of SiH4+ Ion and Related Reverse Ion–Molecule Reactions of Interest to PECVD of a-Si:H Films”, Plasma Chem Plasma Process, 37, 1249-1264 (2017)
593. R. Singh, H.Y. Wu, A. K. Dwivedi, A. Singh, C. M. Lin, P. Raghunath, M. C. Lin, T. K. Wu, K. H. Wei, and H. C. Lin*, “Monomeric and Aggregation Emissions of Tetraphenylethene in a Photo-Switchable Polymer Controlled by Cyclization of Diarylethene and Solvent Conditions”, J. Mater. Chem. C, 5, 9952-9962 (2017).
594. T. Billo, F.-Y. Fu, P. Raghunath, I. Shown, W.-F. Chen, H.-T. Lien, T.-H. Shen, J.-F. Lee, T.-S. Chan, M. C. Lin, J.-S. Hwang, C.-H. Lee, L.-C. Chen and K.-H. Chen, “Ni-Nanocluster Modified Black TiO2 with Dual Active Sites for Selective Photocatalytic CO2 Reduction”, Small, 1702928 (2017).
595. T. S. Pandian, V Srinivasadesikan, M. C. Lin, J. IL Park and Jongmin Kang “A Hydrogen Pyrophosphate Selective Anion Receptor Based on Thiosemicarbazone”, Bulletin of the Korean Chemical Society, 38, 1435-1442 (2017)
596. I. Shown, S. Samireddi, Y.-C. Chang, R. Putikam, P.-H. Chang, A. Sabbah, F.-Y. Fu, W.-F. Chen, C.-I Wu, T.-Y. Yu, P.-W. Chung, M. C. Lin, L.-C. Chen and K.-H. Chen, “Carbon-doped SnS2 nanostructure as a high-efficiency solar fuel catalyst under visible light”, Nature Comm., 9, 169 (2018)
597. P. Raghunath and M. C. Lin. “A Novel Mechanism for Isomerization of N2O4 and its Implication for the Reaction with H2O and Acid Rain Formation”, Int. J. Quantum Chemistry, 118 (12), e25560 (2018).
598. R. Arumugaperumal, P. Venkatesan, T. Shukla, P. Raghunath, R. Singh, S. P. Wu, M. C. Lin, and H. C. Lin, “Multi-Stimuli-Responsive High Contrast Fluorescence Molecular Controls with a Far-Red Emitting BODIPY-Based [2]Rotaxane”, Sensor. Actuat. B: Chem., 270, 382-395 (2018).
599. P. Raghunath and M. C. Lin, “Isomerization of N2O4 in Solid N2H4 and its Implication for Explosion of N2O4 – N2H4 Solid Mixtures”, J. Phys. Chem. C, 122, 23501–23505 (2018)
600. R. Arumugaperumal, P. Raghunath, M. C. Lin and W.-S. Chung, “Distinct Nanostructures and Organogel Driven by Reversible Molecular Switching of a Tetraphenylethene-Involved Calix[4]arene-Based Amphiphilic [2]Rotaxane”, Chem. Mater., 30 (20), 7221–7233 (2018).
601. T. L. Huyen, L. V. Duong, M. T. Nguyen, M. C. Lin, “A model study on the mechanism and kinetics for the dissociation of water anion”, Int. J. Chem. Kinet., 51, 610-617 (2019).
602. T.-T. Wang, P. Raghunath, Y.-C. Lin, Y.-G. Lin, M.-C. Lin, “Effective hydrogenation of TiO2 photocatalysts with CH3OH for enhanced water splitting: A computational and X-ray study”, Applied Surface Science, 488, 546–554 (2019)
603. T. L Huyen, P. Raghunath, M. C Lin, “Ab Initio Chemical Kinetics for Hypergolic Reactions of Nitrogen Tetroxide with Hydrazine and Methyl Hydrazine”, Computational and Theoretical Chemistry, 1163, 112505 (2019).
604. F.-Y. Fu, I. Shown, C.-S. Li, P. Raghunath, T.-Y. Lin, T. Billo, H.-L. Wu, C.-I Wu, P.-W. Chung, M.-C. Lin, L.-C. Chen and K.-H. Chen, “KSCN Induced Interfacial Dipole in Black TiO2 for Enhanced Photocatalytic CO2 Reduction”, ACS Appl. Mater. Interfaces, 11(28), 25186-25194 (2019).
605. L. Lanfri, Y.-L. Wang, T. V. Pham, N. T. Nguyen, M. B. Paci, M. C. Lin and Y.-P. Lee, “Infrared Emission from Photodissociation of Methyl Formate [HC(O)OCH3] at 248 and 193 nm: Absence of Roaming Signature”, J. Phys. Chem. A, 123(29), 6130-6143 (2019)
606. T. L. Huyen, T. V. Pham, M. T. Nguyen and M. C. Lin, “A model study on the mechanism and kinetics for reactions of the hydrated electron with H3O+ and NH4+ ions”, Chemical Physics Letters, 731, 136604 (2019)
607. T. N. Nguyen, Y. M. Lee, J. S. Wu and M. C. Lin, “Ab Initio Chemical Kinetics for the Thermal Decomposition of SiH2+ and SiH3+ Ions and Related Reverse Ion–Molecule Reactions of Interest to PECVD of α-Si:H Films”, Plasma Chemistry and Plasma Processing, 39 (6), 1559–1573 (2019)
608. H.-T. Chen, T. V. Pham and M. C. Lin, “Computational Study on the Mechanisms and Rate Constants for the O(3P,1D) + OCS Reactions”, J. Phys. Chem. A, 123, 8358–8364 (2019)
609. T. V. Pham, H. M. T. Nguyen, M. C. Lin, “On the Hypergolicity of Trimethyl Aluminum in Air”, Comp. Theor. Chem., 1173(1), 112668 (2020)
610. T.-T. Wang, Y.-C. Lin, Y.-G. Lin, M. C. Lin, “Au-assisted Methanol-hydrogenated Titanium Dioxide for Photocatalytic Evolution of Hydrogen”, Catalysis Today, 358, 143-148 (2020).
611. H.-W. Cheng, P. Raghunath, K.-l. Wang, P. Cheng, T. Haung, Q. Wu, J. Yuan, Y.-C. Lin, H.-C. Wang, Y. Zou, Z.-K. Wang, M. C. Lin, K.-H. Wei, Y. Yang, “Potassium-Presenting Zinc Oxide Surfaces Induce Vertical Phase Separation in Fullerene-Free Organic Photovoltaics”, Nano Lett., 20 (1), 715-721 (2020).
612. T.-T. Wang, C.-L. Chiang, Y.-C. Lin, V. Srinivasadesikan, M. C. Lin, Y.-G. Lin, “KSCN-activation of Hydrogenated NiO/TiO2 for Enhanced Photocatalytic Hydrogen Evolution”, Appl. Surf. Sci., 511, 145548 (2020).
613. W.-F. Huang, S.-T. Chang, H.-C. Huang, C.-H. Wang, L.-C. Chen, K.-H. Chen, M. C. Lin, “On the Reduction of O2 on Cathode Surfaces of Co-corrin and Co-porphyrin: A Computational and Experimental Study on Their Relative Efficiencies in H2O/H2O2 Formation”, The Journal of Physical Chemistry C, 124 (8), 4652-4659 (2020)
614. M. Rameez, S. Shahbazi, P. Raghunath, M. C. Lin, C.-H. Hung and Eric W.-G. Diau, “Development of Novel Mixed Halide/Superhalide Tin-Based Perovskites for Mesoscopic Carbon-Based Solar Cells”, The Journal of Physical Chemistry Letters, 11(7), 2443-2448 (2020)
615. M. Rameez, Eric Y.-R. Lin, P. Raghunath, S. Narra, D. Song, M. C. Lin, C.-H. Hung and Eric W.-G. Diau, “Development of Hybrid Pseudohalide Tin Perovskites for Highly Stable Carbon-Electrode Solar Cells”, ACS Applied Materials & Interfaces, 12(19), 21739-21747 (2020).
616. R. Arumugaperumal, W.-L. Hua, P. Raghunath, M. C. Lin and W.-S. Chung, “Controlled Sol-Gel and Diversiform Nanostructure Transitions by Photoresponsive Molecular Switching of Tetraphenylethene- and Azobenzene-Functionalized Organogelators”, ACS Appl. Mater. Interfaces, 12(26), 29650-29660 (2020).
617. M. Shellaiah, N. Thirumalaivasan, B. Aazaad, K. Awasthi, K.W. Sun, S.-P. Wu, M. C. Lin and N. Ohta, “Novel rhodamine probe for colorimetric and fluorescent detection of Fe3+ ions in aqueous media with cellular imaging”, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 242, 118757 (2020).
618. T. V. Pham, T. J. Tsay and M. C. Lin, “Thermal decomposition of N2O near 900 K studied by FTIR spectrometry: Comparison of experimental and theoretical O(3P) formation kinetics”, International Journal of Chemical Kinetics, 52 (10), 632-644 (2020).
619. T. L. Huyen, P. Raghunath and M. C. Lin, “Ab Initio Chemical Kinetics for Nitrogen Tetroxide Reaction with 1,1- and 1,2- Dimethylhydrazines”, Propellants, Explosives, Pyrotechnics, 45, 1478-1486 (2020).
620. T. L. Huyen, P. Raghunath and M. C. Lin, “Quantum chemical modeling of spontaneous reactions of N2O4 with hydrazines in CCl4 solution at low temperature”, Computational and Theoretical Chemistry, 1188, 112951 (2020).
621. R. Arumugaperumal, M. Shellaiah, V. Srinivasadesikan, K. Awasthi, K. W. Sun, M. C. Lin, N. Ohta and W.-S. Chung, “Diversiform Nanostructures Constructed from Tetraphenylethene and Pyrene-based Acid-Base Controllable Molecular Switching Amphiphilic [2]Rotaxanes with Tunable Aggregation-Induced Static Excimers”, ACS Applied Materials & Interfaces, 12, 45222-45234 (2020).
622. H. P. Trac, T. L. Huyen and M. C. Lin, “A Computational Study on the Redox Reactions of Ammonia and Methylamine with Nitrogen Tetroxide”, J. Phys. Chem. A, 124(48), 9923–9932 (2020).
623. S. Palani, I. Shown, A. Sabbah, P. Raghunath, J.-L. Chen, W.-F. Chen, M. C. Lin, K.-H. Chen and L. C. Chen, “Electronic structure modulation of isolated Co-N4 electrocatalyst by sulfur for improved pH-universal hydrogen evolution reaction”, Nano Energy, 80, 105544 (2021).
624. C. Gouda, D. Barik, C. Maitra, K. C. Liang, F. C. Ho, V. Srinivasadesikan, M. C. Lin, S. P. Wu, and H. C. Lin, “Application of Stimuli-Responsive FRET Behavior toward Cyanide Detection in Photo-Switchable [2]Pseudorotaxane Polymer Containing BODIPY Donor and Merocyanine Acceptor”, J. Mater. Chem. C, 9, 2321-2333 (2021).
625. R. Arumugaperumal, M. Shellaiah, Y.-K. Lai, P. Venkatesan, P. Raghunath, S.-P. Wu, M, C. Lin, K. W. Sun, W.-S. Chung and H.-C. Lin, “Acid-base controllable nanostructures and the fluorescence detection of H2PO4- by the molecular shuttling of tetraphenylethene-based [2]rotaxanes”, Journal of Materials Chemistry C, 9, 3215-3228 (2021)
626. W.-Y. Chen, T.-N. Nguyen, M. C. Lin, N.-S. Wang and H. Matsui, “Experimental and theoretical studies on the reaction of H atom with C3H6”, Int. J. Chem. Kinet., 53(5), 646-659 (2021).
627. Y.-C. Lin, C.-K. Peng, S.-C. Lim, C.-L. Chen, T.-N. Nguyen, T.-T. Wang, M. C. Lin, Y.-J. Hsu, S.-Y. Chen and Y.-G. Lin, “Tailoring the Surface Oxygen Engineering of a Carbon-Quantum-Dot-Sensitized ZnO@H-ZnO1-x Multijunction toward Efficient Charge Dynamics and Photoactivity Enhancement”, Appl. Catal. B: Environ., 285, 119846 (2021).
628. M. Shellaiah, Y.-T. Chen, N. Thirumalaivasan, B. Aazaad, K. Awasthi, K. W. Sun, S.-P. Wu, M. C. Lin and N. Ohta, “Pyrene-Based AIEE Active Nanoprobe for Zn2+ and Tyrosine Detection Demonstrated by DFT, Bioimaging, and Organic Thin-Film Transistor”, ACS Applied Materials & Interfaces, 13 (24), 28610–28626 (2021).
629. T. V. Pham and M. C. Lin, “Ab Initio Quantum-Chemical and Kinetic Studies of the O(1D) + N2(X1Sg+) Spin-Forbidden Quenching Process”, Chemical Physics Letters, 780, 138955 (2021).
630. T.-N. Nguyen, P. H. Trac and M. C.Lin, “Fragmentation of two dimethylaluminum peroxy radical isomers formed by the hypergolic reaction of trimethyl aluminum with O2”, Computational and Theoretical Chemistry, 1205, 113436 (2021)
631. T.-T. Wang, C.-L. Chiang, S. Narra, J.-L. Lin, S.-W. Chien, J.-C. Yu, E. Diau, Y.-G. Lin, M. C. Lin, “Synergistic effects of plasmonic gold and perovskite-type SrTiO3 for enhanced photocatalytic performance of TiO2 nanotube arrays”, J. Phys. Chem. C, 125, 44, 24340–24349 (2021)
632. T.-T. Wang, Y.-T. Yang, S.-C. Lim, C.-L. Chiang, J.-S. Lim, Y.-C. Lin, C.-K. Peng, M. C. Lin and Y.-G. Lin, “Hydrogenation engineering of bimetallic Ag–Cu-modified titania photocatalysts for production of hydrogen”, Catalysis Today, 388-389, 79-86 (2022)
633. T. V. Pham and M. C. Lin, “Investigation of Product Formation in the O(1D, 3P) + N2O Reactions: Comparison of Experimental and Theoretical Kinetics”, J. Phys. Chem. A, 126, 1103-1113 (2022)
634. M. Shellaiah, K. Awasthi, S. Chandran, B. Aazaad, K. W. Sun, N. Ohta, S. P. Wu and M. C. Lin, “Methylammonium Tin Tribromide Quantum Dots for Heavy Metal Ion Detection and Cellular Imaging”, ACS Applied Nano Materials, 5, 2859-2874 (2022).
635. M. K. Hussien, A. Sabbah, M. Qorbani, M. H. Elsayed, P. Raghunath, T.-Y. Lin, S. Quadir, H.-Y. Wang, H.-L. Wu, D.-L. M. Tzou, M. C. Lin, P.-W. Chung, H.-H. Chou, L.-C. Chen and K.-H. Chen, “Metal-free four-in-one modification of g-C3N4 for superior photocatalytic CO2 reduction and H2 evolution”, Chemical Engineering Journal, 430, 132853 (2022)
636. K. P. K. Reddy, M. Rameez, T.-T. Wang, K. Wang, E. Y.-R. Lin, M. C. Lin, E. W.-G. Diau, C.-H. Hung, Y.-L. Chueh, K. P. Pande, P.-T. Lee, “Screen-printed Hole Transport Material-free perovskite solar cell for water splitting incorporating Cu-NiCo2O4 catalyst”, Materials Letters, 313, 131838 (2022)
637. T. V. Pham and M. C. Lin, “A Theoretical Study on the Mechanism and Kinetics of the Dimeric TrimethylAluminum + O2 Reaction in the Gas Phase: A Potential Chain-initiation in the Hypergolic Combustion of TMA in Air”, Comp. and Theor. Chem., 1212, 113695 (2022).
638. R. Arumugaperumal, D. Y. Alene, M. Shellaiah, V. Srinivasadesikan, K. Awasthi, K. W. Sun, M. C. Lin, N. Ohta and W.-S. Chung, “Construction of Anisotropic Nanostructures by Self-Assembly of Aggregation-Induced Emission Driven from Tris-Branched [2]Rotaxane Based Molecular Zipper”, Materials Today Chemistry, 24, 100997 (2022).
639. M. Shellaiah, N. Thirumalaivasan, B. Aazaad, K. Awasthi, K. W. Sun, S.-P. Wu, M. C. Lin and N. Ohta, “An AIEE Active Anthracene-Based Nanoprobe for Zn2+ and Tyrosine Detection Validated by Bioimaging Studies”, Chemosensors, 10, 381 (2022)
640. S. Vijayakumar, S. Venkatesan, M.-C. Lin and P. Vediappen, “Highly sensitive and selective detection of tryptophan by antipyrine based fluorimetric sensor”, Journal of Molecular Structure, 1272, 134241 (2023).
641. S. Vijayakumar, S. Venkatesan, M.-C. Lin and P. Vediappen, “Development of optical sensor for the detection of alanine”, Journal of Photochemistry & Photobiology, A: Chemistry, 435, 114338 (2023).
642. H. A. E. Omr, R. Putikam, M. K. Hussien, A. Sabbah, T.-Y. Lin, K.-H. Chen, H.-L. Wu, S.-P. Feng, M. C. Lin and H Lee, “Design of sculptured SnS/g-C3N4 photocatalytic nanostructure for highly efficient and selective CO2 conversion to methane”, Applied Catalysis B: Environmental, 324, 122231 (2023).
643. S. Vijayakumar, S. Venkatesan, M. C. Lin and P. Vediappen, “Highly Sensitive and Selective Detection of Melatonin in Biofluids by Antipyrine Based Hluorophore”, Journal of Fluorescence, 33, 383-392 (2023)
644. L. Raja, S. Venkatesan, M. C. Lin and P. Vediappen, “A turn-on fluorescent sensor for the detection of putrescine in fish samples using thiazole derivative”, Journal of Photochemistry and Photobiology A: Chemistry, 438, 114546 (2023).
645. L. Raja, S. Venkatesan, M. C. Lin and P. Vediappen, “Green synthesis of naphthyl derivative as an optical sensor for the detection of l-carnitine in food samples”, The Journal of Biological and Chemical Luminescence, 38, 224–231 (2023)
646. M. K. Hussien, A. Sabbah, M. Qorbani, M. H. Elsayed, S. Quadir, R. Putikam, D.-L. M. Tzou, S.-C. Haw, H.-H. Chou, N. Q. Thang, M. C. Lin, L.-C. Chen and K. H. Chen, “Numerous Defects Induced by Exfoliation of Boron-Doped g-C3N4 Towards Active Sites Modulation for Highly Efficient Solar-to-Fuel Conversion”, Materials Today Sustainability, 22, 100359 (2023).
647. R. Lavanya, V. Srinivasadesikan, M. C. Lin and V. Padmini, “Development of an optical biosensor for the determination of choline in human biofluids”, Journal of Molecular Structure, 1280, 135040 (2023)
648. Y. P. Reddy, V. Srinivasadesikan, R. Balamurugan, M. C. Lin and S. Anwar, “Synthesis of Tetrahydrochromenes and Dihydronaphthofurans via Cascade Process of [3+3] and [3+2] Annulation Reactions: Mechanistic Insight for 6-endo-trig and 5-exo-trig Cyclisation”, RSC Advances, 13, 5796-5803 (2023).
649. D. Y. Alene, V. Srinivasadesikan, M. C. Lin and W.-S. Chung, “Construction of Mechanically Interlocked Fluorescence Photoswitchable [2]Rotaxane with Aggregation-Induced Emission and Molecular Shuttling Behaviors”, The Journal of Organic Chemistry, 88(9), 5530-5542 (2023).
650. R. Lavanya, V. Srinivasadesikan, M. C. Lin and V. Padmini, “Highly Selective Detection of Citrulline Using Curcumin Analogue and its Application in Food Samples with Logic Gate Behaviour”, Journal of Photochemistry & Photobiology, A: Chemistry, Journal of Molecular Structure, 1288, 135771 (2023)
651. P. Sabhapathy, P. Raghunath, A. Sabbah, I. Shown, K. S. Bayikadi, R.-K. Xie, V. Krishnamoorthy, M.-C. Lin, K.-H. Chen and L.-C. Chen, “Axial Chlorine Induced Electron Delocalization in Atomically Dispersed FeN4 Electrocatalyst for Oxygen Reduction Reaction with Improved Hydrogen Peroxide Tolerance”, Small, 19(45), 2303598 (2023).
652. H. A. E. Omr, R, Putikam; S,-P, Feng, M.-C. Lin and Hyeonseok Lee, “Synergistic role of Cu-C and Cu-N dual bonding of nanostructured g-C3N4/Cu2SnS3 photocatalysts for efficient CO2 conversion to CO”, Applied Catalysis B: Environmental, 339, 123103 (2023).
653. M. M. M. Ahmed, Y.-T. Liu, S. Venkatesan, M. C. Wu, H. M. Nail, D.-L. M. Tzou, M.-C. Lin, K.-Y. Chen and Y.-M. Tzou, “Promotion of the catalytic polymerization of hydroquinone towards humic-like substances by graphitic carbon nitride”, Journal of Environmental Chemical Engineering, 11(5), 111026 (2023).
654. T. T. Wang, S. C. Lim, C. L. Chiang, Y. J. Shen, P. Raghunath, J. R. Li, Y. G. Lin and M. C. Lin, “Photocatalytic Activity of B-Doped Nano Graphene Oxide over Hydrogenated NiO-Loaded TiO2 Nanotubes”, Materials Today Sustainability, 24, 100497 (2023).
655. A. Seetharaman, S. Narra, P. Rajamanickam, R. Putikam, M.-C. Lin and Eric W.-G. Diau, “Diffusion of Bulky Organic Cations in the 3D/2D Heterostructures to Form Interfacial Quasi-2D (N2) Phase for Tin Perovskite Solar Cells†”, Journal of Materials Chemistry A, 11, 21089-21098 (2023)
656. J.-D. Lian, H.-Y. Hu, Y.-H. Lin, P. Raghunath, M.-C. Lin and W.-S. Chung, “Synthesis of Upper-Rim Sulfanylpropyl- and p-Methoxyphenylazo-Substituted Calix[4]arenes as Chromogenic Sensors for Hg2+ and Ag+ Ions”, The Journal of Organic Chemistry, 88(20), 14292–14302 (2003)
657. M. Shellaiah; W.-L. Lin; P. Raghunath; K. W. Sun and M. C. Lin, “Investigation on broadband emission of two-dimensional melamine lead iodide perovskite (2D-C3H8N6PbI4): An experimental and theoretical approach”, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 303, 123186 (2003).
658. S. Muthusamy, P. Sabhapathy, P. Raghunath, A. Sabbah, Y.-C. Chang, V. Krishnamoorthy, T.-T. Ho, J.-W. Chiou, M.-C. Lin, L.-C. Chen and K.-H. Chen “Mimicking Metalloenzyme Microenvironments in the Transition Metal-Single Atom Catalysts for Electrochemical Hydrogen Peroxide Synthesis in an Acidic Medium”, Small Methods, 7, 2300234 (2023)
659. M. M. M. Ahmed, Y.-T. Liu, H. M. Nail, S. Venkatesan, D.-L. M. Tzou, S.-H. Jien, M. C. Wu, M.-C.Lin, H.-M. D. Wang, J.-Y. Chen and Yu.-min Tzou, “Synergistic catalysis of graphitic carbon nitride and dichromate for augmented oxidative polymerization of hydroquinone leading to enhanced humic-like substance formation”, Journal of the Taiwan Institute of Chemical Engineers, 153, 105235 (2023)
660. V. D. Dang, R. Putikam, M.-C. Lin and K.-H. Wei, “MoS2 nanoflowers grown on plasma-induced WO3-anchored graphene for efficient and stable H2 production through seawater electrolysis”, Small, 2305220 (2023).
661. R. Lavanya, S. Poovarasan, V. Srinivasadesikan, M. C. Lin and V. Padmini, “Selective fluorescence turn-off detection of lysine by a curcumin derivative with real sample analysis”, Journal of Photochemistry and Photobiology A-Chemistry, 444, 115008 (2023)
662. S. Vijayakumar, L. Raja, S. Venkatesan, M. C. Lin and V. Padmini, “A highly Selective Schiff Base Based Chemodosimeter for the Detection of Perfluorooctanoic Acid by Optical Biosensor”, J. Fluorescence, 34, 787-794 (2024)
663. M. Shellaiah, H.-C. Chen, K. Awasthi, B. Aazaad, K.-W. Sun, N. Ohta and M.-C. Lin, “An AIE active anthracene-based Schiff base probe for “turn-on” detection of Cu2+ ions: Demonstrations with nanostructural investigations, DFT, cellular imaging, and real water analysis”, Journal of Molecular Structure, 1301, 137347 (2024)
664. M. K. Hussien, A. Sabbah, M. Qorbani, R. Putikam, S. Kholimatussadiah, D.-L. M. Tzou, M. H. Elsayed, Y.-J. Lu, Y.-Y. Wang, X.-H. Lee, T.-Y. Lin, N. Q. Thang, H.-L. Wu, S.-C. Haw, K. C.-W. Wu, M.-C. Lin, K.-H. Chen and L.C. Chen, “Constructing B-N-P Bonds in Ultrathin Holey g-C3N4 for Regulating the Local Chemical Environment in Photocatalytic CO2 Reduction to CO”, Small, 20, 2400724 (2024)
665. T. T. Mamo, M. Qorbani, A. G. Hailemariam, R. Putikam, C.-M. Chu, T.-R. Ko, A. Sabbah, C.-Y. Huang, S. Kholimatussadiah, T. Billo, M. K. Hussien, S.-Y. Chang, M.-C. Lin, W.-Y. Woon, H.-L. Wu, K.-T. Wong, L.-C. Chen, K.-H. Chen, “Enhanced CO2 photoreduction to CH4 via *COOH and *CHO intermediates stabilization by synergistic effect of implanted P and S vacancy in thin-film SnS2”, Nano Energy, 128, 109863 (2024)
666. H. P. Trac and M. C. Lin, “Ab Initio Chemical Kinetics for Oxidation of CH3OH by N2O4: Elucidation of the Mechanism for Major Product Formation and its Relevancy to Tropospheric Chemistry”, J. Phys. Chem. A, 128 (28), 5548-5555 (2024)
667. H. P. Trac and M. C. Lin, “Ab initio MO study on direct production of H2O, N2O and CO3 from the respective CH2OO “Bee-sting-like” attack at H2, N2 and CO2”, J. Mol. Modeling, 30, 272 (2024)
668. V. D. Dang, R. Putikam, M.-C. Lin and K.-H. Wei, “MoS2 nanoflowers grown on plasma-induced WO3-anchored graphene for efficient and stable H2 production through seawater electrolysis”, Small 20(2), 2470018 (2024)
669. R. Lavanya, B. Sangeethapriya, V. Srinivasadesikan, M.-C. Lin, V. Padmini, “Sensitive and selective detection of glycine betaine using curcumin-based fluorescent molecule with real sample analysis”, J. Iranian Chem. Soc., 21, 2325-2333 (2024).
670. V. Krishnamoorthy, P. Sabhapathy, P. Raghunath, C. Y. Huang, A. Sabbah, M. K. Hussien, Z. Syum, S. Muthusamy, M. C. Lin, H. L. Wu, R. S. Chen, K. H. Chen, & L. C. Chen, “Synergistic Electronic Interaction of Nitrogen Coordinated Fe-Sn Double-Atom Sites: An Efficient Electrocatalyst for Oxygen Reduction Reaction” Small Methods, 8(10), 2301674 (2024)
671. N. Bhuvanendran, V. Srinivasadesikan, V. Dharmaraj, W.-G. Jung, W.-J. Moon, C. W. Park, M.-C. Lin and S. Y. Lee, “Ultra-thin dealloyed PdCu bimetallene with lattice strain transformation for efficient bifunctional electrocatalysis”, International Journal of Hydrogen Energy, 98, 514-526 (2025)
672. M. M. M. Ahmed, C.-H. Liao, S. Venkatesan, Y.-T. Liu, Y.-M. Tzou, S.-H. Jien, M.-C. Lin, Y.-C. Hsieh and A. I. Osman, “Sulfur-functionalized sawdust biochar for enhanced cadmium adsorption and environmental remediation: A multidisciplinary approach and density functional theory insights”, Journal of Environmental Management, 373, 123586 (2025)
673. N. Q. Thang, A. Sabbah, R. Putikam, C.-Y. Huang, T.-Y. Lin, M. K. Hussien, H.-L. Wu, M.-C. Lin, C.-H. Lee, K.-H. Chen, L.-C. Chen, “Regulating COOH Intermediate via Rationally Constructed Surface-Active Sites of Bi2WO6 for Solar-Driven CO2-to-CO Production”, Adv. Funct. Mater., 2423751 (2025)
674. N. L. Torad, T.-L. Yang, M. A. Darwish, P. Raghunath, A. Qurashi, L. R. Ahmed, M.-C. Lin, Y. Yamauchi, B. Yuliarto, W. Kaveevivitchai, M. A. Haija and A. F. M. EL-Mahdy, “Structure-Induced Selectivity of Hydroxylated Covalent Organic Framework Nanofibers for Advanced Sensing Applications: An Experimental and Density Functional Theory Study”, ACS Appl. Mater. Interfaces, 17(18), 27188-27203 (2025)
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