Detailed Mechanisms

• [1] Y. Zhai, B. Feng, W. Yuan, C. Ao, L. Zhang, Experimental and modeling studies of small typical methyl esters pyrolysis: Methyl butanoate and methyl crotonate, Combustion and Flame, 191 (2018) 160-174.

  [2] Y. Zhai, C. Ao, B. Feng, Q. Meng, Y. Zhang, B. Mei, J. Yang, F. Liu, L. Zhang, Experimental and kinetic modeling investigation on methyl decanoate pyrolysis at low and atmospheric pressures, Fuel, 232 (2018) 333-340.

2019

• [107] P. Chen, N. Zhang, S. Wang, T. Zhou, Y. Tong, C. Ao, W. Yan, L. Zhang, W. Chu, C. Wu, Interfacial engineering of cobalt sulfide/graphene hybrids for highly efficient ammonia electrosynthesis, Proceedings of the National Academy of Sciences, (2019) 201817881.

  [108] Q. Meng, Y. Chi, L. Zhang, P. Zhang, L. Sheng, Towards high-level theoretical studies of large biodiesel molecules: an ONIOM/RRKM/Master-equation approach to the isomerization and dissociation kinetics of methyl decanoate radicals, Physical Chemistry Chemical Physics, 21 (2019) 5232-5242.

  [109] X. Lin, Q. Meng, B. Feng, Y. Zhai, Y. Li, Y. Yu, Z. Li, X. Shan, F. Liu, L. Zhang, Theoretical Study on Criegee Intermediate’s Role in Ozonolysis of Acrylic Acid, The Journal of Physical Chemistry A, (2019).

2018

• [98] L. Zhang, Q. Meng, Y. Chi, P. Zhang, Toward High-Level Theoretical Studies of Large Biodiesel Molecules: An ONIOM [QCISD (T)/CBS: DFT] Study of the Reactions between Unsaturated Methyl Esters (CnH2n–1COOCH3) and Hydrogen Radical, The Journal of Physical Chemistry A, 122 (2018) 4882-4893.

  [99] X. Zhou, Y. Zhai, L. Ye, L. Zhang, Theoretical studies on the reaction kinetics of methyl crotonate with hydroxyl radical, Sustainable Energy & Fuels, 2 (2018) 392-402.

  [100] Y. Chi, X. You, L. Zhang, W. Li, Utilization of generalized energy-based fragmentation method on the study of hydrogen abstraction reactions of large methyl esters, Combustion and Flame, 190 (2018) 467-476.

  [101] L. Ye, L. Zhang, F. Qi, Ab initio kinetics on low temperature oxidation of iso-pentane: The first oxygen addition, Combustion and Flame, 190 (2018) 119-132.

  [102] Y. Zhai, B. Feng, W. Yuan, C. Ao, L. Zhang, Experimental and modeling studies of small typical methyl esters pyrolysis: Methyl butanoate and methyl crotonate, Combustion and Flame, 191 (2018) 160-174.

  [103] Z. Zhong, Y. Zhai, X. Zhou, B. Feng, C. Ao, L. Zhang, Theoretical Studies on Isomerization and Decomposition Reactions of 2-Methyl-1-butanol Radicals, Energy & fuels, 32 (2018) 7652-7659.

  [104] Q. Meng, X. Zhao, L. Zhang, P. Zhang, L. Sheng, A theoretical kinetics study on low-temperature reactions of methyl acetate radicals with molecular oxygen, Combustion and Flame, 196 (2018) 45-53.

  [105] Y. Zhai, C. Ao, B. Feng, Q. Meng, Y. Zhang, B. Mei, J. Yang, F. Liu, L. Zhang, Experimental and kinetic modeling investigation on methyl decanoate pyrolysis at low and atmospheric pressures, Fuel, 232 (2018) 333-340.

  [106] Y. Tong, P. Chen, M. Zhang, T. Zhou, L. Zhang, W. Chu, C. Wu, Y. Xie, Oxygen vacancies confined in nickel molybdenum oxide porous nanosheets for promoted electrocatalytic urea oxidation, Acs Catalysis, 8 (2017) 1-7.

2017

• [84] L. Ye, L. Xing, W. Yuan, Y. Li, L. Zhang, F. Qi, Predictive kinetics on the formation and decomposition of ethylbenzene, Proceedings of the Combustion Institute, 36 (2017) 533-542.

  [85] Z. Wang, S.Y. Mohamed, L. Zhang, K. Moshammer, D.M. Popolan-Vaida, V.S.B. Shankar, A. Lucassen, L. Ruwe, N. Hansen, P. Dagaut, New insights into the low-temperature oxidation of 2-methylhexane, Proceedings of the Combustion Institute, 36 (2017) 373-382.

  [86] L. Xing, F. Zhang, L. Zhang, Theoretical studies for reaction kinetics of cy-C6H11CH2 radical with O2, Proceedings of the Combustion Institute, 36 (2017) 179-186.

  [87] M. Zeng, Y. Li, W. Yuan, T. Li, Y. Wang, Z. Zhou, L. Zhang, F. Qi, Experimental and kinetic modeling study of laminar premixed decalin flames, Proceedings of the Combustion Institute, 36 (2017) 1193-1202.

  [88] J.Weng, Y. Liu, B. Wang, L.Xing, L. Zhang, Z.Tian, Experimental and kinetic investigation of 1, 2, 4-trimethylbenzene oxidation at low temperature, Proceedings of the Combustion Institute, 36 (2017) 909-917.

  [89] X. Tang, X. Lin, Y. Zhu, X. Wu, Z. Wen, L. Zhang, F. Liu, X. Gu, W. Zhang, Pyrolysis of n-butane investigated using synchrotron threshold photoelectron photoion coincidence spectroscopy, RSC Advances, 7 (2017) 28746-28753.

  [90] P. Chen, T. Zhou, L. Xing, K. Xu, Y. Tong, H. Xie, L. Zhang, W. Yan, W. Chu, C. Wu, Atomically dispersed iron–nitrogen species as electrocatalysts for bifunctional oxygen evolution and reduction reactions, Angewandte Chemie International Edition, 56 (2017) 610-614.

  [91] M. Zhang, H. Guo, L. Zhang, Roaming‐Mediated CH2NH Elimination from the Ionization of Aromatic Ethylamines, ChemistryOpen, 6 (2017) 40-45.

  [92] A. Rodriguez, O. Herbinet, X. Meng, C. Fittschen, Z. Wang, L. Xing, L. Zhang, F. Battin-Leclerc, Hydroperoxide Measurements During Low-Temperature Gas-Phase Oxidation of n-Heptane and n-Decane, The Journal of Physical Chemistry A, 121 (2017) 1861-1876.

  [93] K. Xu, H. Ding, M. Zhang, M. Chen, Z. Hao, L. Zhang, C. Wu, Y. Xie, Regulating Water‐Reduction Kinetics in Cobalt Phosphide for Enhancing HER Catalytic Activity in Alkaline Solution, Advanced Materials, 29 (2017) 1606980.

  [94] L. Xing, L. Zhang, F. Zhang, J. Jiang, Theoretical kinetic studies for low temperature oxidation of two typical methylcyclohexyl radicals, Combustion and Flame, 182 (2017) 216-224.

  [95] P. Chen, T. Zhou, M. Zhang, Y. Tong, C. Zhong, N. Zhang, L. Zhang, C. Wu, Y. Xie, 3D Nitrogen‐Anion‐Decorated Nickel Sulfides for Highly Efficient Overall Water Splitting, Advanced Materials, 29 (2017) 1701584.

  [96] Z. Cheng, Y. Tan, L. Wei, L. Xing, J. Yang, L. Zhang, Y. Guan, B. Yan, G. Chen, D.Y. Leung, Experimental and kinetic modeling studies of furan pyrolysis: Fuel decomposition and aromatic ring formation, Fuel, 206 (2017) 239-247.

  [97] Y. Tong, Y. Guo, P. Chen, H. Liu, M. Zhang, L. Zhang, W. Yan, W. Chu, C. Wu, Y. Xie, Spin-state regulation of perovskite cobaltite to realize enhanced oxygen evolution activity, Chem, 3 (2017) 812-821.

2016

• [77] Z. Wang, L. Zhang, K. Moshammer, D.M. Popolan-Vaida, V.S.B. Shankar, A. Lucassen, C. Hemken, C.A. Taatjes, S.R. Leone, K. Kohse-H?inghaus, Additional chain-branching pathways in the low-temperature oxidation of branched alkanes, Combustion and Flame, 164 (2016) 386-396.

  [78] M. Zeng, Y. Li, W. Yuan, Z. Zhou, Y. Wang, L. Zhang, F. Qi, Experimental and kinetic modeling investigation on decalin pyrolysis at low to atmospheric pressures, Combustion and Flame, 167 (2016) 228-237.

  [79] Y. Zhu, X. Chen, Y. Wang, W. Wen, Y. Wang, J. Yang, Z. Zhou, L. Zhang, Y. Pan, F. Qi, Online study on the catalytic pyrolysis of bituminous coal over HUSY and HZSM-5 with photoionization time-of-flight mass spectrometry, Energy & Fuels, 30 (2015) 1598-1604.

  [80] H. Cheng, K. Xu, L. Xing, S. Liu, Y. Gong, L. Gu, L. Zhang, C. Wu, Manganous oxide nanoparticles encapsulated in few-layer carbon as an efficient electrocatalyst for oxygen reduction in alkaline media, Journal of Materials Chemistry A, 4 (2016) 11775-11781.

  [81] P. Chen, K. Xu, S. Tao, T. Zhou, Y. Tong, H. Ding, L. Zhang, W. Chu, C. Wu, Y. Xie, Phase-Transformation Engineering in Cobalt Diselenide Realizing Enhanced Catalytic Activity for Hydrogen Evolution in an Alkaline Medium, Advanced materials, 28 (2016) 7527-7532.

  [82] X. Zhu, X. Dou, J. Dai, X. An, Y. Guo, L. Zhang, S. Tao, J. Zhao, W. Chu, X.C. Zeng, Metallic nickel hydroxide nanosheets give superior electrocatalytic oxidation of urea for fuel cells, Angewandte Chemie International Edition, 55 (2016) 12465-12469.

  [83] K. Zhang, P. Glarborg, X. Zhou, L. Zhang, L. Ye, G. Dayma, Experimental and Kinetic Modeling Study of Nitroethane Pyrolysis at a Low Pressure: Competition Reactions in the Primary Decomposition, Energy & Fuels, 30 (2016) 7738-7745.

2015

• [66] L. Zhang, Q. Chen, P. Zhang, A theoretical kinetics study of the reactions of methylbutanoate with hydrogen and hydroxyl radicals, Proceedings of the Combustion Institute, 35 (2015) 481-489.

  [67] L. Zhang, P. Zhang, Towards high-level theoretical studies of large biodiesel molecules: an ONIOM [QCISD (T)/CBS: DFT] study of hydrogen abstraction reactions of C n H 2n+ 1 COOCmH 2m+1+ H, Physical Chemistry Chemical Physics, 17 (2015) 200-208.

  [68] P. Zhang, L. Zhang, C.K. Law, Density functional theory study of the reactions of 2-azido-N, N-dimethylethanamine with nitric acid and nitrogen dioxide, Combustion and flame, 162 (2015) 237-248.

  [69] K. Xu, X. Li, P. Chen, D. Zhou, C. Wu, Y. Guo, L. Zhang, J. Zhao, X. Wu, Y. Xie, Hydrogen dangling bonds induce ferromagnetism in two-dimensional metal-free graphitic-C 3 N 4 nanosheets, Chemical Science, 6 (2015) 283-287.

  [70] L. Zhao, Z. Cheng, L. Ye, F. Zhang, L. Zhang, F. Qi, Y. Li, Experimental and kinetic modeling study of premixed o-xylene flames, Proceedings of the Combustion Institute, 35 (2015) 1745-1752.

  [71] X. Zhang, B. Yang, W. Yuan, Z. Cheng, L. Zhang, Y. Li, F. Qi, Pyrolysis of 2-methyl-1-butanol at low and atmospheric pressures: Mass spectrometry and modeling studies, Proceedings of the Combustion Institute, 35 (2015) 409-417.

  [72] Z. Wang, H. Bian, Y. Wang, L. Zhang, Y. Li, F. Zhang, F. Qi, Investigation on primary decomposition of ethylcyclohexane at atmospheric pressure, Proceedings of the Combustion Institute, 35 (2015) 367-375.

  [73] Z. Wang, X. Zhang, L. Xing, L. Zhang, F. Herrmann, K. Moshammer, F. Qi, K. Kohse-H?inghaus, Experimental and kinetic modeling study of the low-and intermediate-temperature oxidation of dimethyl ether, Combustion and Flame, 162 (2015) 1113-1125.

  [74] Z. Wang, L. Zhao, Y. Wang, H. Bian, L. Zhang, F. Zhang, Y. Li, S.M. Sarathy, F. Qi, Kinetics of ethylcyclohexane pyrolysis and oxidation: An experimental and detailed kinetic modeling study, Combustion and Flame, 162 (2015) 2873-2892.

  [75] W. Bi, X. Li, L. Zhang, T. Jin, L. Zhang, Q. Zhang, Y. Luo, C. Wu, Y. Xie, Molecular co-catalyst accelerating hole transfer for enhanced photocatalytic H 2 evolution, Nature communications, 6 (2015) 8647.

  [76] L.Xing, X.Zhang, Z. Wang, S. Li, L.Zhang, New Insight into Competition between Decomposition Pathways of Hydroperoxymethyl Formate in Low Temperature DME Oxidation, Chinese Journal of Chemical Physics, 28 (2015) 563-572.

2014

• [60] Z. Wang, L. Ye, W. Yuan, L. Zhang, Y. Wang, Z. Cheng, F. Zhang, F. Qi, Experimental and kinetic modeling study on methylcyclohexane pyrolysis and combustion, Combustion and Flame, 161 (2014) 84-100.

  [61] J. Cai, W. Yuan, L. Ye, Z. Cheng, Y. Wang, W. Dong, L. Zhang, Y. Li, F. Zhang, F. Qi, Experimental and kinetic modeling study of i-butanol pyrolysis and combustion, Combustion and Flame, 161 (2014) 1955-1971.

  [62] L. Zhao, M. Xie, L. Ye, Z. Cheng, J. Cai, Y. Li, F. Qi, L. Zhang, An experimental and modeling study of methyl propanoate pyrolysis at low pressure (vol 160, pg 1958, 2013), Combustion and Flame, 161 (2014) 631-632.

  [63] Z. Wang, L. Zhang, F. Zhang, Kinetics of homoallylic/homobenzylic rearrangement reactions under combustion conditions, The Journal of Physical Chemistry A, 118 (2014) 6741-6748.

  [64] M. Zeng, W. Yuan, Y. Wang, W. Zhou, L. Zhang, F. Qi, Y. Li, Experimental and kinetic modeling study of pyrolysis and oxidation of n-decane, Combustion and Flame, 161 (2014) 1701-1715.

  [65] Y. Guo, J. Dai, J. Zhao, C. Wu, D. Li, L. Zhang, W. Ning, M. Tian, X.C. Zeng, Y. Xie, Large negative magnetoresistance induced by anionic solid solutions in two-dimensional spin-frustrated transition metal chalcogenides, Physical review letters, 113 (2014) 157202.

2013

• [50] A. Lucassen, Z. Wang, L. Zhang, F. Zhang, W. Yuan, Y. Wang, F. Qi, K. Kohse-H?inghaus, An experimental and theoretical study of pyrrolidine pyrolysis at low pressure, Proceedings of the Combustion Institute, 34 (2013) 641-648.

  [51] Z. Wang, Y. Li, F. Zhang, L. Zhang, W. Yuan, Y. Wang, F. Qi, An experimental and kinetic modeling investigation on a rich premixed n-propylbenzene flame at low pressure, Proceedings of the Combustion Institute, 34 (2013) 1785-1793.

  [52] K. Zhang, L. Zhang, M. Xie, L. Ye, F. Zhang, P. Glarborg, F. Qi, An experimental and kinetic modeling study of premixed nitroethane flames at low pressure, Proceedings of the Combustion Institute, 34 (2013) 617-624.

  [53] L. Zhang, Z. Luo, L. Zhang, L. Jia, L. Wu, Interactions of disulfide-constrained cyclic tetrapeptides with Cu 2+, JBIC Journal of Biological Inorganic Chemistry, 18 (2013) 277-286.

  [54] L. Jia, J. Yang, L. Zhang, F. Zhang, F. Qi, H. Fan, J. Cai, Experimental and theoretical studies of pyrolysis of chrysophanol and its derivatives, Journal of analytical and applied pyrolysis, 100 (2013) 237-244.

  [55] F. Zhang, Z. Wang, Z. Wang, L. Zhang, Y. Li, F. Qi, Kinetics of decomposition and isomerization of methylcyclohexane: Starting point for studying monoalkylated cyclohexanes combustion, Energy & Fuels, 27 (2013) 1679-1687.

  [56] Y. Zhang, W.h. Yuan, J.h. Cai, L.d. Zhang, F. Qi, Y.y. Li, Product Identification and Mass Spectrometric Analysis of n-Butane and i-Butane Pyrolysis at Low Pressure, Chinese Journal of Chemical Physics, 26 (2013) 151.

  [57] L. Zhao, M. Xie, L. Ye, Z. Cheng, J. Cai, Y. Li, F. Qi, L. Zhang, An experimental and modeling study of methyl propanoate pyrolysis at low pressure, Combustion and Flame, 160 (2013) 1958-1966.

  [58] J. Cai, W. Yuan, L. Ye, Z. Cheng, Y. Wang, L. Zhang, F. Zhang, Y. Li, F. Qi, Experimental and kinetic modeling study of 2-butanol pyrolysis and combustion, Combustion and Flame, 160 (2013) 1939-1957.

  [59] Y. Li, L. Zhang, Z. Wang, L. Ye, J. Cai, Z. Cheng, F. Qi, Experimental and kinetic modeling study of tetralin pyrolysis at low pressure, Proceedings of the Combustion Institute, 34 (2013) 1739-1748.

2012

• [39] L. Ye, F. Zhang, L. Zhang, F. Qi, Theoretical studies on the unimolecular decomposition of propanediols and glycerol, The Journal of Physical Chemistry A, 116 (2012) 4457-4465.

  [40] H. Guo, L. Ye, L. Jia, L. Zhang, F. Qi, VUV Photoionization and Dissociation of Tyramine and Dopamine: the Joint Experimental and Theoretical Studies, Chinese Journal of Chemical Physics, 25 (2012) 11.

  [41] Y. Zhang, J. Cai, L. Zhao, J. Yang, H. Jin, Z. Cheng, Y. Li, L. Zhang, F. Qi, An experimental and kinetic modeling study of three butene isomers pyrolysis at low pressure, Combustion and Flame, 159 (2012) 905-917.

  [42] L. Ye, L. Zhao, L. Zhang, F. Qi, Theoretical studies on the unimolecular decomposition of ethylene glycol, The Journal of Physical Chemistry A, 116 (2011) 55-63.

  [43] J. Yang, F. Zhang, L. Jia, L.Zhang, F. Qi, H. Fan, J. Cai, Experimental and Theoretical Study on Pyrolysis of Isopsoralen, Chinese Journal of Chemical Physics, 25 (2012) 249.

  [44] L. Zhang, L. Jia, L. Zhang, H. Guo, Z. Zhou, J. Weng, F. Qi, Synchrotron vacuum ultraviolet (VUV) photo-induced fragmentation of cyclic dipeptides radical cations, Amino acids, 43 (2012) 279-287.

  [45] J. Cai, L. Zhang, J. Yang, Y. Li, L. Zhao, F. Qi, Experimental and kinetic modeling study of tert-butanol combustion at low pressure, Energy, 43 (2012) 94-102.

  [46] J. Cai, L. Zhang, F. Zhang, Z. Wang, Z. Cheng, W. Yuan, F. Qi, Experimental and kinetic modeling study of n-butanol pyrolysis and combustion, Energy & Fuels, 26 (2012) 5550-5568.

  [47] L. Zhao, L. Ye, F. Zhang, L. Zhang, Thermal decomposition of 1-pentanol and its isomers: A theoretical study, The Journal of Physical Chemistry A, 116 (2012) 9238-9244.

  [48] Z. Wang, Z. Cheng, W. Yuan, J. Cai, L. Zhang, F. Zhang, F. Qi, J. Wang, An experimental and kinetic modeling study of cyclohexane pyrolysis at low pressure, Combustion and Flame, 159 (2012) 2243-2253.

  [49] H. Guo, L. Zhang, L. Jia, F. Qi, Photon induced side-chain elimination of metronidazole: Photoionization mass spectrometric and theoretical studies, Journal of Spectroscopy and Dynamics, 2 (2012) 2.

2011

• [33] Y. Li, J. Cai, L. Zhang, J. Yang, Z. Wang, F. Qi, Experimental and modeling investigation on premixed ethylbenzene flames at low pressure, Proceedings of the Combustion Institute, 33 (2011) 617-624.

  [34] Investigation on chemical structures of premixed toluene flames at low pressure, Proceedings of the Combustion Institute, 33 (2011) 593-600.

  [35] Z. Wang, A. Lucassen, L. Zhang, J. Yang, K. Kohse-Höinghaus, F. Qi, Experimental and theoretical studies on decomposition of pyrrolidine, Proceedings of the Combustion Institute, 33 (2011) 415-423.

  [36] D. Chen, H. Jin, Z. Wang, L. Zhang, F. Qi, Unimolecular decomposition of ethyl hydroperoxide: ab initio/rice− ramsperger− kassel− marcus theoretical prediction of rate constants, The Journal of Physical Chemistry A, 115 (2011) 602-611.

  [37] T. Yuan, L. Zhang, Z. Zhou, M. Xie, L. Ye, F. Qi, Pyrolysis of n-heptane: Experimental and theoretical study, The Journal of Physical Chemistry A, 115 (2011) 1593-1601.

  [38] S. Li, H. Guo, L. Zhang, F. Qi, Dissociation Pathway Analysis of Thymine under Low Energy VUV Photon Excitation, Chinese Journal of Chemical Physics, 24 (2013) 275.

2010

• [27] L. Zhang, J. Cai, T. Zhang, F. Qi, Kinetic modeling study of toluene pyrolysis at low pressure, Combustion and Flame, 157 (2010) 1686-1697.

  [28] Y. Li, L. Zhang, T. Yuan, K. Zhang, J. Yang, B. Yang, F. Qi, C.K. Law, Investigation on fuel-rich premixed flames of monocyclic aromatic hydrocarbons: Part I. Intermediate identification and mass spectrometric analysis, Combustion and Flame, 157 (2010) 143-154.

  [29] Y. Pan, L. Zhang, H. Guo, L. Deng, F. Qi, Photoionisation and photodissociation studies of nonvolatile organic molecules by synchrotron VUV photoionisation mass spectrometry and theoretical calculations, International Reviews in Physical Chemistry, 29 (2010) 369-401.

  [30] L. Deng, L. Zhang, H. Guo, L. Jia, Y. Pan, H. Yin, F. Qi, VUV photon-induced ionization/dissociation of antipyrine and propyphenazone: mass spectrometric and theoretical insights, Journal of mass spectrometry, 45 (2010) 734-739.

  [31] Z. Zhou, L. Zhang, M. Xie, Z. Wang, D. Chen, F. Qi, Determination of absolute photoionization cross-sections of alkanes and cyclo-alkanes, Rapid Communications in Mass Spectrometry: An International Journal Devoted to the Rapid Dissemination of Up-to-the-Minute Research in Mass Spectrometry, 24 (2010) 1335-1342.

  [32] H. Guo, L. Zhang, L. Deng, L. Jia, Y. Pan, F. Qi, Vacuum ultraviolet photofragmentation of sarcosine: photoionization mass spectrometric and theoretical insights, The Journal of Physical Chemistry A, 114 (2010) 3411-3417.

2009

• [15] L. Zhang, Y. Pan, H. Guo, T. Zhang, L. Sheng, F. Qi, P.-K. Lo, K.-C. Lau, Conformation-Specific Pathways of β-Alanine: A Vacuum Ultraviolet Photoionization and Theoretical Study, The Journal of Physical Chemistry A, 113 (2009) 5838-5845.

  [16] L. Zhang, Y. Pan, F. Qi, Theoretical Studies on Photoionization of Guanine Tautomers and Interconversion of Cation Radicals, Journal of Theoretical and Computational Chemistry, 8 (2009) 1103-1115.

  [17] Y. Li, L. Zhang, Z. Tian, T. Yuan, K. Zhang, B. Yang, F. Qi, Investigation of the rich premixed laminar acetylene/oxygen/argon flame: Comprehensive flame structure and special concerns of polyynes, Proceedings of the Combustion Institute, 32 (2009) 1293-1300.

  [18] Y. Li, Z. Tian, L. Zhang, T. Yuan, K. Zhang, B. Yang, F. Qi, An experimental study of the rich premixed ethylbenzene flame at low pressure, Proceedings of the Combustion Institute, 32 (2009) 647-655.

  [19] Z. Tian, L. Zhang, Y. Li, T. Yuan, F. Qi, An experimental and kinetic modeling study of a premixed nitromethane flame at low pressure, Proceedings of the Combustion Institute, 32 (2009) 311-318.

  [20] Y. Pan, L. Zhang, T. Zhang, H. Guo, X. Hong, L. Sheng, F. Qi, Intramolecular hydrogen transfer in the ionization process of α-alanine, Physical Chemistry Chemical Physics, 11 (2009) 1189-1195.

  [21] Y. Li, L. Zhang, Z. Tian, T. Yuan, J. Wang, B. Yang, F. Qi, Experimental study of a fuel-rich premixed toluene flame at low pressure, Energy & Fuels, 23 (2009) 1473-1485.

  [22] X. Hong, T. Zhang, L.-d. Zhang, F. Qi, Identification of intermediates in pyridine pyrolysis with molecular-beam mass spectrometry and tunable synchrotron VUV photoionization, Chinese Journal of Chemical Physics, 22 (2013) 204.

  [23] Y. Pan, L. Zhang, H. Guo, H. Yin, F. Qi, Photoionization and dissociative photoionization study of cholesterol by IR laser desorption/tunable synchrotron VUV photoionization mass spectrometry, Chinese Journal of Chemical Physics, 22 (2009) 129.

  [24] X. Hong, L. Zhang, T. Zhang, F. Qi, An experimental and theoretical study of pyrrole pyrolysis with tunable synchrotron VUV photoionization and molecular-beam mass spectrometry, The Journal of Physical Chemistry A, 113 (2009) 5397-5405.

  [25] Z. Tian, Y. Li, L. Zhang, P. Glarborg, F. Qi, An experimental and kinetic modeling study of premixed NH3/CH4/O2/Ar flames at low pressure, Combustion and Flame, 156 (2009) 1413-1426.

  [26] T. Zhang, L. Zhang, X. Hong, K. Zhang, F. Qi, C.K. Law, T. Ye, P. Zhao, Y. Chen, An experimental and theoretical study of toluene pyrolysis with tunable synchrotron VUV photoionization and molecular-beam mass spectrometry, Combustion and Flame, 156 (2009) 2071-2083.

2008

• [9] L. Zhang, H. Guo, Y. Pan, F. Qi, Theoretical Study of the AlEt3-Promoted Tandem Reductive Rearrangement of Epoxides, Chinese Journal of Chemical Physics, 21 (2008) 547-554.

  [10] H.M. Ge, C.H. Zhu, D.H. Shi, L. Zhang, D.Q. Xie, J. Yang, S.W. Ng, R.X. Tan, Hopeahainol A: an acetylcholinesterase inhibitor from Hopea hainanensis, Chemistry–A European Journal, 14 (2008) 376-381.

  [11] T. Zhang, J. Wang, T. Yuan, X. Hong, L. Zhang, F. Qi, Pyrolysis of methyl tert-butyl ether (MTBE). 1. Experimental study with molecular-beam mass spectrometry and tunable synchrotron VUV photoionization, The Journal of Physical Chemistry A, 112 (2008) 10487-10494.

  [12] T. Zhang, L. Zhang, J. Wang, T. Yuan, X. Hong, F. Qi, Pyrolysis of methyl tert-butyl ether (MTBE). 2. Theoretical study of decomposition pathways, The Journal of Physical Chemistry A, 112 (2008) 10495-10501.

  [13] Y. Pan, L. Zhang, H. Guo, F. Qi, Dissociative photoionization mechanism of 1, 8-dihydroxyanthraquinone: an experimental and theoretical study, The Journal of Physical Chemistry A, 112 (2008) 10977-10984.

  [14] Y. Pan, L. Zhang, T. Zhang, H. Guo, X. Hong, F. Qi, Photoionization studies on various quinones by an infrared laser desorption/tunable VUV photoionization TOF mass spectrometry, Journal of mass spectrometry, 43 (2008) 1701-1710.

2007以前

• [1] L. Zhang, D. Xie, D. Xu, H. Guo, Reactivity of metaphosphate and thiometaphosphate in water: A DFT study, The Journal of Physical Chemistry A, 109 (2005) 11295-11303.

  [2] D. Xie, D. Xu, L. Zhang, H. Guo, Theoretical study of general base-catalyzed hydrolysis of aryl esters and implications for enzymatic reactions, The Journal of Physical Chemistry B, 109 (2005) 5259-5266.

  [3] L. Zhang, D. Xie, Density functional theory study of proton transfer in carbonic anhydrase, Chinese Science Bulletin, 50 (2005) 2557-2559.

  [4] L. Zhang, D. Xie, J. Zeng, Electronic excitations of green fluorescent proteins: Modeling solvatochromatic shifts of chromophore model compounds in solutions, Journal of Theoretical and Computational Chemistry, 5 (2006) 375-390.

  [5] L. Zhang, D. Xie, D. Xu, H. Guo, Supermolecule density functional calculations suggest a key role for solvent in alkaline hydrolysis of p-nitrophenyl phosphate, Chemical Communications, (2007) 1638-1640.

  [6] Y. Zhu, Y. Guo, L. Zhang, D. Xie, A computational investigation on the sequential rearrangement mechanism of 2-allyl-2, 4, 5-hexatrienaldehyde involving [1, 5]-hydrogen migration and 8π-electrocyclization, Journal of computational chemistry, 28 (2007) 2164-2169.

  [7] C. Wang, D. Xu, L. Zhang, D. Xie, H. Guo, Molecular dynamics and density functional studies of substrate binding and catalysis of arginine deiminase, The Journal of Physical Chemistry B, 111 (2007) 3267-3273.

  [8] W. Yan, L. Zhang, D. Xie, J. Zeng, Electronic excitations of green fluorescent proteins: modeling solvatochromatic shifts of red fluorescent protein chromophore model compound in aqueous solutions, The Journal of Physical Chemistry B, 111 (2007) 14055-14063.