2025

  • W. Y. Chen, B. Z. Liu, H. Lou, B. Dong, C. Xie, J. Z. Yang, L. Zhu*, Z. D. Wang*

    Synchrotron vacuum ultraviolet photoionization mass spectrometry to examine low temperature oxidation chemistry of n-heptane under different fuel concentrations and pressures

    Combust. Flame 272, 113898-0 (2025).

2024

  • Z. H. Hu¹, C. Xie¹, S. Y. Chen¹, Q. B. Zhu, W. Y. Chen, Q. Xu, B. Z. Liu, Y. R. He, L. L. Xing*, D. G. Truhlar*, Z. D. Wang*

    Unraveling Chain Branching in Cool Flames

    J. Am. Chem. Soc. 146, 28060-28069 (2024).

  • H. Wang, J. W. Guan*, J. Gao, J. Y. Zhang, Q. Xu, G. X. Xu, L. Jiang, L. L. Xing, D. G. Truhlar*, Z. D. Wang*

    Direct Observation of Covalently Bound Clusters in Resonantly Stabilized Radical Reactions and Implications for Carbonaceous Particle Growth

    J. Am. Chem. Soc. 146, 13571-13579 (2024).

  • J. Ren, H. L. Li*, H. Lou, W. L. Zhou, F. Zeng, Y. Wang, X. K. Liu, C. Mebrahtu, G. Pei, J. P. Cao, T. Yao*, Z. D. Wang*, J. Zeng*

    A Scenario for a Carbon-Neutral Ammonia-Fueled Engine Mediated by Catalytic NH3 Cracking and CO2 Hydrogenation

    Angew. Chem. Int. Ed., (2024).

  • S. P Xia, K. Zhao, Y. F. Gao, Y. Y. Fan, C. Y. Wang, T. P. Yu, H. Wang, J. Y. Zhang, Z. D. Wang*, X. Zhu, Z. L. Zhao, A. Q. Zheng*

    Co-Feeding CO2 for Methylfuran Aromatization over Bifunctional Zeolite-Supported ZnMoO4

    Angew. Chem. Int. Ed., (2024).

  • W. S. Zhang*, W. L. Zhou, Y. F. Li, Y. J. Chen, Z. H. Zhang, Y. Zhao, X. Li, Y. Mou*, Z. D. Wang*

    Additive effect of alkaline earth metal on hydrogen production via catalytic ammonia decomposition over Co/CeO2 catalysts

    Int. J. Hydrogen Energ. 94, 697-705 (2024).

  • Q. Xu, J. Y. Zhang, B. Z. Liu, H. Wang, G. X. Xu, J. Gao, Z. D. Wang, J. W. Guan*

    Probing the Reaction of Propargyl Radical with Molecular Oxygen by Synchrotron VUV Photoionization Mass Spectrometry

    J. Phys. Chem. A 128, 7105-7113 (2024).

  • H. Lou, J. Ren*, N. XU, I. Ullah, S. M. Ahmed, Z. Abbasi, W. L. Wu*, Z. D. Wang*

    Mastering the Foreign Ionic Radius in CeO2 Supports of Ni-Based Catalysts for Efficient CO2 Methanation

    Ind. Eng. Chem. Res 63, 17103-17111 (2024).

  • W. Y. Chen, Q. B. Zhu, B. Z. Liu, G. X. Xu, S. Y. Chen, L. Zhu, J. Z. Yang, Z. D. Wang*

    Synchrotron vacuum ultraviolet photoionization mass spectrometry and modeling study of iso-octane low temperature oxidation at varied pressures

    Combust. Flame 267, 113601-0 (2024).

  • H. K. Lang, F. P. Bin, S. Y. Chen, X. L. Zhang, J. Z. Yin, J. Z. Pan, Z. D. Wang*, L. X. Wei*

    An experimental and kinetic modeling study on 4-methylheptane pyrolysis at atmospheric pressure

    Combust. Flame 270, 113790-0 (2024).

  • S. S. Ruan, W. Y. Chen, Q. B. Zhu, B. Z. Liu, Z. D. Wang*, L. D. Zhang*

    Coupling experimental and modeling approaches for understanding diethoxymethane low-temperature oxidation at high pressure

    Proc. Combust Inst. 40, 105635-0 (2024).

  • L. Zhu, S. Y. Chen, B. Z. Liu, Q. B. Zhu, Q. Xu, Z. D. Wang*

    Ozone-assisted low-temperature oxidation of acetone

    Proc. Combust Inst. 40, 105492-0 (2024).

  • Bin Dong, Liuyuan Wang, Longhua Hu*, Jun Fang*, Zhandong Wang*

    Exploring the Oxidation Chemistry of Diethyl Carbonate in Lithium-ion Battery Thermal Runaway Using SVUV-PIMS

    Proc. Combust Inst. 40, 105479-0 (2024).

  • B. Z. Liu, B. Dong, Q. B. Zhu, L. Zhu, Z. D. Wang*

    Exploring the low-temperature oxidation characteristics of butanol isomers in a jet-stirred reactor

    Proc. Combust Inst. 40, 105369-0 (2024).

  • Q. B. Zhu, B. Z. Liu, Z. H. Hu, S. Y. Chen, Q. Xu, Z. D. Wang*

    Pyrolysis and kinetic modeling study of tetramethylethylenediamine: A potential green propellant

    Proc. Combust. Inst 40, 105426-0 (2024).

  • N. Xu, J. Ren*, H. Lou, Y. F. Li, W. L. Zhou, I. Ullah, S. M. Ahmed, Z. Abbasi, Z. D. Wang*

    Structure and Activity Comparison of Cu/CeyZr1-yOx Series Catalysts in the Reverse Water-Gas Shift Reaction

    Energy Fuels 38, 7158-7166 (2024).

  • W. L. Zhou, W. S. Zhang*, Y. Shan, B. Z. Liu, K. Li, J. Ren, Y. F. Li, X. M. Zhang*, Z. D. Wang*

    Carbon-free hydrogen production via plasma-catalytic ammonia decomposition over transition metal-based catalysts: In situ probing by DRIFTS and SVUV-PIMS

    Chem. Eng. J 492, 152101-6378 (2024).

  • Q. B. Zhu, X. Y. Lei, B. Z. Liu, Z. H. Hu, Q. Xu, Y. Pan, B. L. Hou, X. D. Wang*, Z. D. Wang*

    Experimental and theoretical studies of HAN and HEHN pyrolysis at low pressure

    Energy Fuels 38, 6370-6378 (2024).

  • B. Z. Liu, Q. B. Zhu, L. Zhu, C. Xie, Q. Xu, Z. D. Wang*

    Low-temperature oxidation of n-butanol in a jet-stirred reactor: Detailed species measurements and modeling studies

    Combust. Flame 261, 113290-0 (2024).

  • H. H. Fu, Y. T. Wang, B. Z. Liu, Z. D. Wang*, X. W. Zhang, G. Z. Liu*

    Experimental and theoretical study of cyclopropanated fuel exo,exo-Tetracyclo[3.3.1.02,4.06,8]nonane pyrolysis in a jet-stirred reactor

    Fuel 361, 130702-0 (2024).

  • S. Xu, G. S. Li, M. N. Zhou, Z. H. Zhang*, Z. D. Wang*, B. Liu, Q. Xu, B. Z. Liu

    Experimental and kinetic studies of the mutual oxidation of ammonia and n-dodecane at low to high temperatures

    Combust. Flame 267, 113557-0 (2024).

  • S. M. Ahmed, J. Ren*, I. Ullah, H. Lou, N. Xu, Z. Abbasi, Z. D. Wang*

    Ni-Based Catalysts for CO2 Methanation: Exploring the Support Role in Structure-Activity Relationships

    ChemSusChem, (2024).

  • D. Wang, W. K. Dai, Z. Y. Tian*, Y. W. Liu, Z. M. Wang, L. N. Wu, J. J. Kuang, Q. P. Wang, Q. Xu, Z. D. Wang

    Theoretical and experimental study on the pyrolysis of N-methylpyrrolidone

    J. Anal. Appl. Pyrolysis 183, 106751-0 (2024).

  • J. G. Gao, Z. L. Xiong, P. Q. Liu, B. Z. Liu, Q. Xu, Z. D. Wang, W. H. Yuan, Z. Y. Zhou, M. R. Zeng*

    Experimental and modeling investigation of the oxidation of n-hexylbenzene: Insight into the formation of low-temperature intermediates

    Combust. Flame 269, 113681-0 (2024).

  • X. D. Meng, Z. D. Wang, B. Z. Liu, Y. X. Gao, J. Y. Zhang, J. H. Sun, Q. S. Wang*

    Enhancing extinguishing efficiency for lithium-ion battery fire: Investigating the extinguishing mechanism and surface/interfacial activity of F-500 microcapsule extinguishing agent

    eTransportation 22, 100357-0 (2024).

  • L. Luo, T. Zhou, W. J. Li, H. Yan, W. Y. Chen, Q. Xu, S. P. Hu, C. Ma, J. Bao, C. W. Pao, Z. D. Wang, H. L.Li, X. L. Ma*, L. H. Luo*, J. Zeng*

    Close Intimacy between PtIn Clusters and Zeolite Channels for Ultrastability toward Propane Dehydrogenation

    Nano Lett. 24, 7236-7243 (2024).

  • J. B. Zou*, C. S. Lewin, W. Y. Chen, C. Xie, Z. D. Wang, J. Bourgalais*, O. Herbinet, F. Battin-Lexlerc, A. Farooq*

    The cool-flame chemistry of tetrahydropyran: Insights into oxygenated heterocyclic ring dynamics

    Proc. Combust. Inst 40, 105374-0 (2024).

  • Z. L. Xiong, J. G. Gao, Y. W. Deng, J. J. Guo, B. Z. Liu, M. R. Zeng, Z. D. Wang, Z. Y. Zhou, W. H. Yuan*, F. Qi

    An experimental and modeling study on homogeneous oxidative coupling of methane utilizing N2O as oxidant

    Proc. Combust Inst. 40, 105378-0 (2024).

  • Y. W. Deng, Z. L. Xiong, J. J. Guo, B. Z. Liu, M. R. Zeng, Z. D. Wang, Z. Y. Zhou, W. H. Yuan*, F. Qi

    Ozone-assisted low temperature oxidation of indene: An experimental and computational study

    Proc. Combust Inst. 40, 105371-0 (2024).

  • L. N. Wu*, W. J. Wang, D. Wang, Q. P. Wang, Z. H. Zheng, K. R. Jin, J. J. Kuang, C. Y. Ye, B. Z. Liu, C. Xie, Q. Xu, Z. D. Wang, Z. Y. Tian

    Co-oxidation of pyridine and pyrrole as a dual component model compound of fuel nitrogen in coal

    Proc. Combust Inst. 40, 105521-0 (2024).

  • Q. Wang*, H. H. Wang, H. D. Chen, W. X. Liao, Z. K. Liu, Z. H. Hu, R. Sui, Z. D. Wang, B. Yang*

    New insights into the NH3/N2O/Ar system: Key steps in N2O evolution

    Proc. Combust. Inst 40, 105236-0 (2024).

  • B. J. Chen, P. Liu*, B. Z. Liu, Z. D. Wang, X. Gao, L. R. William

    Low temperature chemistry of 1,2,4-trimethylbenzene in a blend with n-heptane

    Combust. Flame 259, 113209-0 (2024).

  • L. Zeng, T. Yan, J. J. Du, C. Y. Liu, B. Dong, B. Qian, X. Zhou, G. G. Su, T. Zhou, Z. J. Peng, Z. D. Wang, H. L. Li*, J. Zeng*

    Recycling Valuable Alkylbenzenes from Polystyrene through Methanol-Assisted Depolymerization

    Angew. Chem. Int. Ed. 63, (2024).

  • L. J. Liu¹, J. Y. Lu¹, Y. H. Yang, W. G. Ruettinger, X. H. Gao, M. Wang, H. Lou, Z. D. Wang, Y. F. Liu, X. Tao, L. N. Li, Y. Wang, H. J. Li, H. Zhou, C. T. Wang, Q. S. Luo, H. X. Wu, K. D. Zhang, J. B. Ma*, X. M. Cao*, L. Wang*, F. S. Xiao*

    Dealuminated Beta zeolite reverses Ostwald ripening for durable copper nanoparticle catalysts

    Science 383, 94-101 (2024).

  • W. L. Wu, L. Luo, Z. L. Li, J. H. Luo, J. K. Zhao, M. L. Wang, X. L. Ma, S. P. Hu, Y. Chen, W. Y. Chen, Z. D. Wang, C. Ma, H. L. Li*, J. Zeng*

    The Importance of Sintering-Induced Grain Boundaries in Copper Catalysis to Improve Carbon-Carbon Coupling

    Angew. Chem. Int. Ed., (2024).

  • Z. L. Xiong, J. J. Guo, Y. W. Deng, B. Z. Liu, H. Lou, M. R. Zeng, Z. D. Wang, Z. Y. Zhou, W. H. Yuan*, F. Qi*

    Elucidating the Mechanism for Oxidative Coupling of Methane Catalyzed by La2O3: Experimental and Microkinetic Modeling Studies

    ACS Catal. 14, 1267-1280 (2024).

  • H. Zhang, X. W. Zhai, X. Cao, Z. H. Liu, X. F. Tang, Z. H. Hu, H. Wang, Z. D. Wang, Y. Xu, W. He, W. Zheng*, M. Zhou*, Z. M. Sun*

    Phase Engineering of MXene Derivatives Via Molecular Design for High-Rate Sodium-Ion Batteries

    Energy Environ. Mate., (2024).

2023

  • Z. H. Hu¹, Q. M. Di¹, B. Z. Liu¹, Y. B. Li, Y. R. He, Q. B. Zhu, Q. Xu, P. Dagaut, N. Hansen, S. M. Sarathy, L. L. Xing, D. G. Truhlar*, Z. D. Wang*

    Elucidating the photodissociation fingerprint and quantifying the determination of organic hydroperoxides in gas-phase autoxidation

    Proc. Natl. Acad. Sci. 120, (2023).

  • Y. F. Li, W. S. Zhang*, J. Ren, W. L. Zhou, Z. D. Wang*

    Ammonia decomposition for carbon-free hydrogen production over Ni/Al-Ce catalysts: Synergistic effect between Al and Ce

    Fuel 358, 130176-0 (2023).

  • B. Z. Liu, Q. B. Zhu, L. Zhu, Z. H. Hu, Q. Xu, Z. D. Wang*

    Ozone-initiated low-temperature oxidation of two propanol isomers: revealing the effects of Ö/ȮH atoms/radicals

    Combust. Flame 256, 112956-0 (2023).

  • Y. X. Jing, J. T. Cui, B. Z. Liu, Q. B. Zhu, Q. Xu, Z. H. Hu, F. Y. Fu*, L. L. Xing*, Z. D. Wang*

    Pyrolysis and kinetic study of dimethyl methylphosphonate (DMMP) by synchrotron photoionization mass spectrometry

    Combust. Flame 255, 112919-0 (2023).

  • L. Zhu, Q. Xu, B. Z. Liu, C. Xie, Y. B. Li, H. Wang, H. Lou, Q. B. Zhu, S. Panigrahy, H. Curran, Z. Y. Wang, Y. G. Ju, Z. D. Wang*

    Ozone-assisted low-temperature oxidation of methane and ethane

    Proc. Combust. Inst 39, 375-384 (2023).

  • J. H. Jin¹, C. Xie¹, Jiao. Gao¹, H. Wang, J. Y. Zhang, Y. J. Zhao*, M. Gao, J. B. Ma, Z. D. Wang, J. W. Guan*

    Elucidating the toluene formation mechanism in the reaction of propargyl radical with 1,3-butadiene

    Phys. Chem. Chem. Phys. 25, 13136-0 (2023).

  • L. Zhu, Q. Xu, C. Xie, B. Z. Liu, H. Wang, S. Panigrahy, H. Curran, Z. D. Wang*

    Chemical insight into the ozone-assisted low-temperature oxidation of propane

    Combust. Flame 254, 112814-0 (2023).

  • B. Z. Liu¹, Q. M. Di¹, M. Lailliau, N. Belhadj, P. Dagaut, Z. D. Wang*

    Experimental and kinetic modeling study of low-temperature oxidation of n-pentane

    Combust. Flame 254, 112813-0 (2023).

  • W. S. Zhang*, W. L. Zhou, Y. F. Li, J. Ren, Z. D. Wang*

    Enhanced ammonia decomposition activity over unsupported Co3O4: Unravelling the promotion effect of alkali metal

    Appl. Catal. B-Environ 330, 122644-0 (2023).

  • B. Z. Liu, S. J. Dong, J. Debleza, W. Y. Chen, Q. Xu, H. Wang, J. Bourgalais, O. Herbinet, H. J. Curran, F. Battin-Leclerc, Z. D. Wang*

    Experimental and Updated Kinetic Modeling Study of Neopentane Low Temperature Oxidation

    J. Phys. Chem. A 127, 2113-2122 (2023).

  • J. Ren*, H. Lou, N. Xu, F. Zeng, G. Pei, Z. D. Wang*

    Methanation of CO/CO2 for power to methane process: Fundamentals, status, and perspectives

    J. Energy Chem. 80, 182-206 (2023).

  • T. P. Yu¹, Q. Xu¹, H. Wang, C. Xie, J. W. Guan, X. G. Zhou*, Z. D. Wang*

    Direct bond fission and hydrogen migration as the trigger forces in the pyrolysis of n-pentyl nitrate at low pressure

    Combust. Flame 248, 112576-0 (2023).

  • L. Zhu, S. Panigrahy, S N. Elliott, S J. Klippenstein, M. Baigmohanmmadi, A. A. E. Mohamed, J. W. Hargis, S. Alturaifi, O. Mathieu, E L. Petersen, K. A. Heufer, A. Ramalingam, Z. D. Wang*, H J. Curran*

    A wide range experimental study and further development of a kinetic model describing propane oxidation

    Combust. Flame 248, 112562-0 (2023).

  • Y. T. Zhai*, Q. Xu, S. S. Ruan, L. D. Zhang, C. Xie, Z. D. Wang*, S. M. Sarathy

    Cool flame product characterization from the low-temperature oxidation of n-dodecane

    Combust. Flame 249, 112601-0 (2023).

  • Y. T. Zhai*, Z. D. Wang*, V. G. Samaras, S. M. Sarathy

    Oxidation of n-Nonane: Measurements of Low-Temperature Products in Jet-Stirred Reactors

    Energy Fuels 37, 16866-16879 (2023).

  • J. Ren*, H. Lei, C. Mebrahtu, F. Zeng, X. S. Zheng, G. Pei, W. H. Zhang*, Z. D. Wang*

    Ni-based hydrotalcite-derived catalysts for enhanced CO2 methanation: Thermal tuning of the metal-support interaction

    Appl. Catal. B-Environ 340, 123245-0 (2023).

  • J. Wang, W. He, C. Xie, Q. Xu, J. Z. Yin, Z. D. Wang*, L. X. Wei*

    Experimental and kinetic modeling studies of phenyl acetate pyrolysis at atmospheric pressure

    Proc. Combust. Inst 39, 345-354 (2023).

  • G. Y. Wang, D. Xu, J. Q. Tang, B. Z. Liu, Z. D. Wang*, Q. Xu, Y. J. Hu, J. S. Zhou, S. R. Wang*

    Study on the influence of different side chain structures on the pyrolysis behavior of polyolefin plastic wastes

    Combust. Flame 255, 112909-0 (2023).

  • J. Ren, F. Zeng, C. Mebrahtu*, Z. D. Wang, R. Palkovits

    Promotional effects of Ru and Fe on Ni/ZrO2 catalyst during CO2 methanation: A comparative evaluation of the mechanism

    J. Energy Chem., (2023).

  • L. C. Lian¹, Y. R. He¹, L. L. Xing*, C. Xie, Z. D. Wang, X. T. Wang, H. J. Li

    Kinetic study of hydrogen abstraction reactions from n-propyl/n-butylcyclohexane by hydrogen atom

    Fuel 354, 129348-0 (2023).

  • Y. T. Zhai*, Q. Xu, B. B. Feng, C. Shao, Z. D. Wang*, S. M. Sarathy

    Impacts of NO on low-temperature oxidation of n-heptane in a jet-stirred reactor

    Combust. Flame 253, 112824-0 (2023).

  • W. Cong, Y. Y. Fang, B. Liu, C. Y. Tang, B. Dong, X. W. Yin, Z. N. Bian, Z. D. Wang, J. Liu, Y. T. Qian, G. M. Wang*

    Lattice oxygen-mediated electron tuning promotes electrochemical hydrogenation of acetonitrile on copper catalysts

    Nat. Commun. 14, (2023).

  • S. S. Zhu, Q. Xu, R. Y. Tang, J. Gao*, Z. D. Wang*, J. Y. Pan, D. K. Zhang

    A comparative study of oxidation of pure ammonia and ammonia/dimethyl ether mixtures in a jet-stirred reactor using SVUV-PIMS

    Combust. Flame 250, 112643-0 (2023).

  • S. J. Dong, B. W. Wang, Z. Z. Jiang, X. B. Cheng*, B. Z. Liu, Z. D. Wang, C. W. Zhou, H. Curranc

    On the low-temperature chemistry of 1,3-butadiene

    Proc. Combust. Inst 39, 365-373 (2023).

  • X. Y. Zhang*, Q. Xu, C. Xie, Q. M. Di, B. Z. Liu, Z. D. Wang, S. M. Sarathy*

    A functional-group-based approach to modeling real-fuel combustion chemistry – III: Application to biodiesels

    Proc. Combust. Inst 39, 85-94 (2023).

  • B. J. Chen, P. Liu*, M. Pelucchi*, C. Guidici, L. P. Maffei, S. Faller, Q. Xu, J. B. Huang, F. Zhang, C. Huang, K. Leonherd, Z. D. Wang, M. Mehl, W. Roberts, T. Faravelli, H. Pitsch

    New insights into the oxidation chemistry of pyrrole, an N-containing biomass tar component

    Proc. Combust. Inst 39, 73-84 (2023).

  • Y. Y. Qian, Z. D. Wang, L. Chen, P. Q. Liu, L. Y. Jia*, B. Dong, H. Li, S. Y. Xu*

    A study on the decomposition pathways of HTPB and HTPE pyrolysis by mass spectrometric analysis

    J. Anal. Appl. Pyrol. 170, 105929-0 (2023).

  • S. S. Nagaraja*, J. H. Liang, B. Z. Liu, Q. Xu, C. Shao, G. Kukkadapu, H. T. Lue, Z. D. Wang, W. J. Pitz, H. J. Curran, S. M Sarathy

    An experimental and modeling study of tetramethyl ethylene pyrolysis with polycyclic aromatic hydrocarbon formation

    Proc. Combust. Inst 39, 1029-1037 (2023).

  • J. Y. Pan, R. Y. Tang*, Z. D. Wang, J. Gao, Q. Xu, G. Q. Shu, H. Q. Wei*

    An experimental and modeling study on the oxidation of ammonia and n-heptane with JSR

    Proc. Combust. Inst 39, 477-485 (2023).

  • Q. H. Zhang, L. Zhu, Z. Y. Zhou, Z. D. Wang, Y. X. Tian, Y. Z. Liu*

    Dissociative photoionization studies of ethyl iodide using synchrotron radiation photoionization mass spectrometry and photoelectron imaging

    Chem. Phys. Lett 817, 140427-0 (2023).

  • J. L. Wang, D. D. Xu, X. Z. Gao, Q. Xu, Z. D. Wang, J. Z. Yang, L. L. Xing, J. Y. Tao, B. B. Yan, G. Y. Chen, Z. J. Cheng*

    Experimental and kinetic model studies on the low- to moderate-temperature oxidation of N-methyl pyrrole in a jet-stirred reactor

    Combust. Flame 251, 112694-0 (2023).

2022

  • Q. Xu, B. Z. Liu, W. Y. Chen, T. P. Yu, Z. H. Zhang, C. Zhang, L. X. Wei, Z. D. Wang*

    Comprehensive study of the low-temperature oxidation chemistry by synchrotron photoionization mass spectrometry and gas chromatography

    Combust. Flame 236, 111797-0 (2022).

  • H. Wang, J. W. Guan*, J. Gao, Y. B. Li, J. Y. Zhang, X. B. Shan, Z. D. Wang*

    Discriminating between the dissociative photoionization and thermal decomposition products of ethylene glycol by synchrotron VUV photoionization mass spectrometry and theoretical calculations

    Phys. Chem. Chem. Phys. 24, 26915-26925 (2022).

  • B. Dong, Y. B. Li, J. W. Guan, L. H. Hu, J. Fang*, Z. D. Wang*

    Quantification of n-heptane low temperature oxidation products by proton-transfer-reaction mass spectrometry

    Combust. Flame 246, 112390-0 (2022).

  • H. H. Wang, L. L. Xing*, C. Xie, B. Z. Liu, H. Wang, Z. D. Wang*

    Kinetics of H-abstraction from isopentanol and subsequent β-dissociation and isomerization

    Combust. Flame 246, 112393-0 (2022).

  • C. Xie, Q. Xu, W. Y. Chen, T. P. Yu, L. X. Wei, L. L. Xing, Z. D. Wang*

    Evaluating the role of hydroxyl keto-hydroperoxide in the low temperature oxidation of alkenes

    Combust. Flame 246, 112414-0 (2022).

  • B. Z. Liu, L. Zhu, Q. B. Zhu, H. Lou, Q. Xu, Z. D. Wang*

    Ozone-assisted low temperature oxidation of methanol and ethanol

    Applications in Energy and Combustion Science 12, 100085-0 (2022).

  • H. H. Wang, B. Z. Liu, C. Xie, Y. B. Li, J. T. Cui, L. L. Xing*, Z. D. Wang*

    Thermal decomposition of isopentanol: A theoretical calculation and kinetic modeling analysis

    Combust. Flame 245, 112320-0 (2022).

  • B. Dong, Z. H. Hu, Q. Xu, B. Z. Liu, Q. B. Zhu, J. W. Guan, C. Y. Liu, Y. Pan, L. H. Hu, J. Fang*, Z. D. Wang*

    Improving quantification of hydrogen peroxide by synchrotron vacuum ultraviolet photoionization mass spectrometry

    Combust. Flame 242, 112214-0 (2022).

  • C. Xie, M. Lailliau, G. lssayev, Q. Xu, W. Y. Chen, P. Dagaut, A. Farooq, S. M. Sarathy, L. X. Wei, Z. D. Wang*

    Revisiting low temperature oxidation chemistry of n-heptane

    Combust. Flame 242, 112177-0 (2022).

  • W. Y. Chen, A. Rodriguez, C. Xie, Y. B. Li, Q. X, H. Wang, O. Herbinet, F. B. Leclerc, Z. D. Wang*

    Exploring low temperature oxidation of iso-octane under atmospheric pressure

    Combust. Flame 243, 112019-0 (2022).

  • W. Y. Chen, Q. Xu, H. Lou, Q. M. Di, C. Xie, B. Z. Liu, J. Z. Yang*, H. L. Gall, L.S. Tran, X. D. Wang, Z. Y. Xia, O. Herbinet, F. Battin-Leclerc*, Z. D. Wang*

    Variable pressure JSR study of low temperature oxidation chemistry of n-heptane by synchrotron photoionization mass spectrometry

    Combust. Flame 240, 111946-0 (2022).

  • H. F. Jin, W. Y. Chen, L. L. Ye*, H. Lou, Q. Xu, B. B. Feng, Z. D. Wang*, A. Farooq

    Reaction kinetics of phenyl + phenylacetylene at combustion-relevant intermediate temperatures

    Combust. Flame 243, 112014-0 (2022).

  • X. Y. Zhang, W. Li, Q. X, Y. Zhang, Y. X. Jing, Z. D. Wang*, S. M. Sarathy*

    A decoupled modeling approach and experimental measurements for pyrolysis of C6-C10 saturated fatty acid methyl esters (FAMEs)

    Combust. Flame 243, 111955-0 (2022).

  • H. L. Fan, J. Ma, L. Zhu, B. Z. Liu, F. Y. Liu, X. B. Shan, Z. D. Wang*, L. M. Wang*

    Unusual Diradical Intermediates in Ozonolysis of Alkenes: A Combined Theoretical and Synchrotron Radiation Photoionization Mass Spectrometric Study on Ozonolysis of Alkyl Vinyl Ethers

    J. Phys. Chem. A 43, 8021-8027 (2022).

  • Z. Y. Wen, H. Yue, Y. Zhang, X. X. Lin, Z. J. Ma, W. J. Zhang*, Z. D. Wang*, C. H. Zhang, C. Fittschen, X. F. Tang*

    Self-reaction of C2H5O2 and its cross-reaction with HO2 studied with vacuum ultraviolet photoionization mass spectrometry

    Chemical Physics Letters 806, 140034-0 (2022).

  • R. Y. Tang, Q. Xu, J. Y. Pan*, J. Gao, Z. D. Wang*, H. Q. Wei, G. Q. Shu

    An experimental and modeling study of ammonia oxidation in a jet stirred reactor

    Combust. Flame 240, 112007-0 (2022).

  • H. F. Zhuang, L. Chen, Q. Xu, B. Z. Liu, P. Q. Liu, Z. D. Wang*, L. Y. Jia*

    Measurement and summary of photoionization data forbiomass-derived compounds

    Rapid Commun. Mass Spectrom. 36, (2022).

  • L. N. Wu, Z. Y. Tian*, D. Wang, Z. H. Zheng, K. R. Jin, B. Z. Liu, C. Xie, Q. Xu, Z. D. Wang

    Dinitriles and nitriles are common intermediates of pyrrole pyrolysis

    Combust. Flame 245, 112358-0 (2022).

  • L. L. Xing*, L. C. Lian, Z. D. Wang, Z. J. Cheng*, Y. R. He, J. T. Cui, D. G. Truhlar*

    Lowering of Reaction Rates by Energetically Favorable Hydrogen Bonding in the Transition State. Degradation of Biofuel Ketohydroperoxides by OH

    J. Am. Chem. Soc. 144, 16984-16995 (2022).

  • D. M. Popolan-Vaida*, A. J. Eskola, B. Rotavera, J. F. Lockyear, Z. D. Wang, S. M. Sarathy, R. L. Caravan, J. Zador, L. Sheps, A. Lucassen, K. Moshammer, P. Dagaut, D. L. Osborn, N. Hansen, S. R. Leone*, C. A. Taatjes*

    Formation of Organic Acids and Carbonyl Compounds inn-Butane Oxidation viaγ-Ketohydroperoxide Decomposition

    Angew. Chem. Int. Ed. 61, (2022).

  • C. T. Yu, Z. J. Xiao, B. Dong, W. Y. Chu, J. W. Guan, Z. D. Wang, Q. Zhang, Y. Chen, D. F. Zhao*

    Gas-Phase Optical Spectra of the Indenyl Radical and Its Quantitative Detection in a Jet-Stirred Reactor

    J. Phys. Chem. A 126, 4630-4635 (2022).

  • J. L. Wang, W. M. Ding, X. Z. Gao, H. Wang, W. Li, Q. Xu, X. Zhong, Z. J. Cheng*, H. Wang, Z. D. Wang, J. Z. Yang, L. Zhao, B. B. Yan, G. Y. Chen

    Experimental and kinetic model studies on the pyrolysis of 2-furfuryl alcohol at two reactors: Flow reactor and jet-stirred reactor

    Combust. Flame 244, 112275-0 (2022).

  • W. He, Q. Xu, C. Xie, J. Z. Yin, P. D. Li, Z. D. Wang, L. D. Zhang*, L. X. Wei*

    Experimental and kinetic modeling studies of 2-acetylfuran pyrolysis at atmospheric pressure

    Combust. Flame 236, 111824-0 (2022).

  • Z. H. Zheng, W. Li, L. N. Wu, K. R. Jin, Q. Xu, H. Wang, B. Z. Liu, Z. D. Wang, Z. Y. Tian*

    Pyrolysis study of iso-propylamine with SVUV-photoionization molecular-beam mass spectrometry

    Combust. Flame 244, 112232-0 (2022).

  • B. J. Chen, P. Liu*, Q. Xu, Z. D. Wang, W. L. Roberts, H. Pitsch

    Low temperature oxidation of toluene in an n-heptane/toluene mixture

    Combust. Flame 242, 112200-0 (2022).

  • K. R. Jin, Z. H. Zhi, L. N. Wu, Q. Xu, B. Z. Liu, Z. D. Wang, Z. Y. Tian*

    Pyrolysis of norbornadiene: An experimental and kinetic modeling study

    Combust. Flame 242, 112155-0 (2022).

  • L. N. Wu, Z. Y. Tian*, K. R. Jin, Z. H. Zheng, D. Wang, B. Z. Liu, Q. Xu, Z. D. Wang

    Experimental and kinetic study of pyridine oxidation under the fuel-lean condition in a jet-stirred reactor

    Combust. Flame 243, 112042-0 (2022).

  • J. B. Zou, J. G. Zhang, T. Y. Lian, Q. Xu, B. Z. Liu, Z. D. Wang, J. Z. Yang, Y. Y. Li*

    Conformation-dependent low-temperature oxidation chemistry of methylcyclohexane: First oxygen addition and chain-branching

    Combust. Flame 243, 11963-0 (2022).

2021

  • Z. D. Wang*#, M. Ehn#, M. P. Rissanen, O. Garmash, L. Quéléver, L. L. Xing, M. Monge-Palacios, P. Rantala, N. M. Donahue, T. Berndt, S. M. Sarathy*

    Efficient alkane oxidation under combustion engine and atmospheric conditions

    Communications Chemistry 4, 18-18 (2021).

  • K. Yang, J. H. Huang, B. Dong, P. Q. Liu, L. Chen, Z. D. Wang,* L.Y. Jia*

    Secondary Reactions of Primary Tar from Biomass Pyrolysis: Characterization of Heavy Products by FT-ICR MS

    Energy Fuels 35, 13191-13199 (2021).

  • Y. B. Li, W. Y. Chen, L. Zhu, H. H. Wang, J. W. Guan*, X. B. Shan, F. Y. Liu, Z. D. Wang*

    Intramolecular CH3-migration-controlled cation reactions in the vuv photochemistry of 2-methyl-3-buten-2-ol investigated by synchrotron photoionization mass spectrometry and theoretical calculations.

    Phys. Chem. Chem. Phys. 23, 10456-10467 (2021).

  • Y. B. Li, J. W. Guan, H. H. Wang, L. Zhu, L. L. Ye*, Z. D. Wang*

    Predictive Combustion Kinetics of OH Radical Reactions with a C5 Unsaturated Alcohol: The Competitive H-Abstraction and OH-Addition Reactions of 2-Methyl-3-buten-2-ol

    J. Phys. Chem. A 125, 10451-10462 (2021).

  • Q. H. Zhang, L. Zhu, Z. D. Wang, Y. Z. Liu*

    Study on the photoionization and dissociative photoionization of ortho-, meta-, para-bromofluorobenzenes using VUV synchrotron radiation

    Chemical Physics Letters 783, 139045-0 (2021).

  • X. Y. Zhang*, C. C. Cao, J. b. Zou, Y. Li, Y. Zhang, J. J.Guo, Q. Xu, B. B. Feng, S. M. Sarathy, J. Z. Yang, Z. D. Wang, F. Qi, Y. Y. Li*

    Low-temperature oxidation chemistry of 2,4,4-trimethyl-1-pentene (diisobutylene) triggered by dimethyl ether (DME): A jet-stirred reactor oxidation and kinetic modeling investigation

    Combust. Flame 234, 111629-0 (2021).

  • A. Ahmed*, J. A. Corrubiac, M. Al-Lehaibi, F. Farid, H. Wang, Z. D. Wang, B. J. Chen, W. L. Roberts, D. L. Miller, A. Farooq, N. P. Cernansky, S. M. Sarathy*

    A comprehensive combustion chemistry study of n-propylcyclohexane

    Combust. Flame 233, 111576-0 (2021).

  • C. C. Cao, W. Li, Q. Xu, B. B. Feng, Z. D. Wang, J. Z. Yang, Y. Y. Li*

    Probing pyrolysis chemistry of 1-heptene pyrolysis with insight into fuel molecular structure effects

    Combust. Flame 227, 79-94 (2021).

  • J. Y. Pan, R. Y. Tang, J. Gao,Z. D. Wang, H. Q. Wei, G. Q. Shu

    A Theoretical Study on Cool Flame Oxidation as an Effective Way for Fuel Reforming: Emphasis on Ignition Characteristics and Chemical Analysis

    Combustion Science and Technology, (2021).

  • S. Dong*, K. Zhang, E. M. Ninnemann, A. Najjar, G. Kukkadapu, J. Baker, F. Arafin, Z. D. Wang, W. J. Pitz2, S. S. Vasu, S. M. Sarathy, P. K. Senecal, H. J. Curran

    A comprehensive experimental and kinetic modeling study of 1- and 2-pentene

    Combust. Flame 223, 166-180 (2021).

  • F. Battin-Lecler, J. Bourgalais, Z. Gouid, O. Herbinet, G. Garcia, P. Arnoux, Z. D. Wang, Luc-Sy Tran, G. Vanhove, L. Nahon4, M. Hochlaf

    Chemistry deriving from OOQOOH radicals in alkane low temperature oxidation: a first combined theoretical and electron-ion coincidence mass spectrometry study

    Proc. Combust. Inst 38, 309-319 (2021).

  • N. Hansen, G. Kukkadapu, B. Chen, S. Dong, H. J. Curran, C. A. Taatjes, Arkke J. Eskola, D. L. Osborn, L. Sheps, W. J. Pitz, K. Moshammer, A. W. Jasper, W. Chen, J. Yang, Z. D. Wang

    The Impact of the Third O2 Addition Reaction Network on Ignition Delay Times of neo-Pentane

    Proc. Combust. Inst 38, 299-307 (2021).

2020

  • Z. D. Wang*, N. Hansen, A. W. Jasper, B. Chen, D. M. Popolan-Vaida, K. K. Yalamanchi, A. Najjar, P. Dagaut, S. M. Sarathy

    Cool flame chemistry of diesel surrogate compounds: n-Decane, 2-methylnonane, 2,7-dimethyloctane, and n-butylcyclohexane

    Combust. Flame 219, 384-392 (2020).

  • B. Chen*, B. Dragos Ilieș, W. Chen, Q. Xu, Y. Li, L. Xing, J. Yang, L. Wei, N. Hansen, H. Pitsch, S. M. Sarathy, Z. D. Wang*

    Exploring low temperature oxidation of 1-butene in jet-stirred reactors

    Combust. Flame 222, 259-271 (2020).

  • J. Bourgalais, Z. Gouid, O. Herbinet, G. A. Garcia, P. Arnoux, Z. D. Wang, Luc-Sy Tran, G. Vanhove, M. Hochlaf, L. Nahon, Frédérique Battin-Leclerc

    Isomer-sensitive characterization of low temperature oxidation reaction products by coupling a jet-stirred reactor to an electron/ion coincidence spectrometer: case of n-pentane

    Phys. Chem. Chem. Phys. 22, 1222-1241 (2020).

2019

  • Z. D. Wang, O. Herbinet, N. Hansen, F. Battin-Leclerc*

    Exploring hydroperoxides in combustion: the history, recent advances, and perspectives

    Prog. Energ. Combust. Sci. 73, 132-181 (2019).

  • S. Can, H. Wang, N. Atef, Z. D. Wang*, B. Chen, M. Almalki, Y. Zhang, C. Cao, J. Yang, S. M. Sarathy

    Polycyclic aromatic hydrocarbons in pyrolysis of gasoline surrogates (n-heptane/iso-octane/toluene)

    Proc. Combust. Inst. 37, 993-1001 (2019).

  • T. Bissoonauth, Z. D. Wang*, S. Y. Mohamed, J-Y. Wang, B. Chen, A. Rodriguez, O. Frottier, X. Zhang, Y. Zhang, C. Cao, J. Yang, O. Herbinet, F. Battin-Leclerc, S. M. Sarathy

    Methylcyclohexane pyrolysis and oxidation in a jet-stirred reactor

    Proc. Combust. Inst. 37, 409-417 (2019).

  • L. Xing*, Z.D. Wang, D. G. Truhlar*

    Multistructural Anharmonicity Controls the Radical Generation Process in Biofuel Combustion

    J. Am. Chem. Soc. 141, 18531-18543 (2019).

  • A. Ahmed*, W. J. Pitz, C. Cavallotti, M. Mehl, N. Lokachari, E. J.K. Nilsson, J-Y. Wang, A. A. Konnov, S. W. Wagnon, B. Chen, Z. D. Wang, H. J. Curran, S. J. Klippenstein, W. L. Roberts, S. M. Sarathy

    Small Ester Combustion Chemistry: Computational Kinetics and Experimental Study of Methyl Acetate and Ethyl Acetate

    Proc. Combust. Inst. 37, 419-428 (2019).

  • S. M. Sarathy*, Efstathios-Al. Tingas, E. F. Nasir, A. Detogni, Z. D. Wang, A. Farooq, H. Im

    Three-stage heat release in n-heptane auto-ignition

    Proc. Combust. Inst. 37, 485-492 (2019).

2018

  • Z. D. Wang*, B. Chen, K. Moshammer, D. M. Popolan-Vaida, S. Sioud, V. S. Bhavani Shankar, D. Vuilleumier, T. Tao, L. Ruwe, E. Bräuer, , N. Hansen, P. Dagaut, K. Kohse-Höinghaus, M. A. Raji, S. M. Sarathy

    n-Heptane cool flame chemistry: Unraveling intermediate species measured in a stirred reactor and motored engine

    Combust. Flame 187, 199-216 (2018).

  • Z. D. Wang

    Experimental and Kinetic Modeling Study of Cyclohexane and Its Mono-alkylated Combustion

    Springer Book, (2018).

  • L. Xing*, J. Bao, Z. D. Wang, X. Wang, D. G. Truhlar

    Hydrogen shift isomerizations in the kinetics of the second oxidation mechanism of alkane combustion. Reactions of the hydroperoxypentylperoxy OOQOOH radical

    Combust. Flame 197, 88-101 (2018).

  • M. Szőri, B. R. Giri*, Z. D. Wang, A. E. Dawood, B. Viskolcz, A. Farooq*

    Glycerol Carbonate as Fuel Additive for Sustainable Future

    Sustainable Energy & Fuels 2, 2171-2178 (2018).

  • M. Monge-Palacios*, M. Rissanen, Z. D. Wang, S. M. Sarathy

    Theoretical kinetic study of the formic acid catalyzed Criegee intermediate isomerization: multistructural anharmonicity and atmospheric implications

    Phys. Chem. Chem. Phys 20, 10806-10814 (2018).

  • T. Tao, W. Sun, N. Hansen, A. W. Jasper, K. Moshammer, B. Chen, Z. D. Wang, C. Huang, P. Dagaut, B. Yang*

    Exploring the negative temperature coefficient behavior of acetaldehyde based on detailed intermediate measurements in a jet-stirred reactor

    Combust. Flame 192, 120-129 (2018).

  • Efstathios-Al. Tingas*, Z. D. Wang, S. M. Sarathy, Hong G. Im, D. A. Goussis

    Chemical kinetic insights into the ignition dynamics of n-hexane

    Combust. Flame 188, 28-40 (2018).

2017

  • B. Chen*, C. Togbé, Z. D. Wang*, P. Dagaut, S. M. Sarathy

    Jet-stirred reactor oxidation of alkane-rich FACE gasoline fuels

    Proc. Combust. Inst. 36, 517-524 (2017).

  • Z. D. Wang*, S. Y. Mohamed, L. Zhang, K. Moshammer, D. M. Popolan-Vaida, V. S Bhavani Shankar, A. Lucassen, L. Ruwe, N. Hansen, P. Dagaut, S. M. Sarathy

    New insights into the low-temperature oxidation of 2-methylhexane

    Proc. Combust. Inst. 36, 373-382 (2017).

  • L. Xing, J. Bao*, Z. D. Wang, F. Zhang*, D. G. Truhlar*

    Degradation of Carbonyl Hydroperoxides in the Atmosphere and in Combustion

    J. Am. Chem. Soc. 139, 15821-15835 (2017).

  • A. Rodriguez, O. Herbinet, X. Meng, C. Fittschen, Z. D. Wang, L. Xing, L. Zhang, F. Battin-Leclerc*

    Hydroperoxide measurements during low-temperature gas-phase oxidation of n-heptane and n-decane

    J. Phys. Chem. A 121, 1861-1876 (2017).

  • V. S. Bhavani Shankar*, M. Al-Abbad, M. El-Rachidi, S. Y. Mohamed, E. Singh, Z. D. Wang, A. Farooq, and S. M. Sarathy*

    Antiknock quality and ignition kinetics of 2-phenylethanol, a novel lignocellulosic octane booster

    Proc. Combust. Inst. 36, 3515-3522 (2017).

  • A. Rodriguez*, Olivier Herbinet, Z. D. Wang, F. Qi, C. Fittschen, P. R. Westmoreland, F. Battin-Leclerc

    Measuring hydroperoxide chain-branching agents during n-pentane low-temperature oxidation

    Proc. Combust. Inst. 36, 333-342 (2017).

  • Z. Cheng, Q Niu, Z. D. Wang, H. Jin, G. Chen. M. Yao, L. Wei*

    Experimental and kinetic modeling studies of low-pressure premixed laminar 2-methylfuran flames

    Proc. Combust. Inst. 36, 1295-1302 (2017).

  • W. H. Yuan, Y. Y. Li*, Z. D. Wang, Y. Z. Wang, L. Zhao, Y. Zhang, Z. Y. Zhou, F. Qi

    Experimental and kinetic modeling study of premixed n-butylbenzene flames Proc. Combust. Inst. 36, 815–823 (2017)

    Proc. Combust. Inst. 36, 815-823 (2017).

  • H. Bian, Z. D. Wang, J. Sun*, F. Zhang*

    Conformational inversion-topomerization mechanism of ethylcyclohexyl isomers and its role in combustion kinetics

    Proc. Combust. Inst. 36, 237-244 (2017).

  • Luc-Sy Tran*, Z. D. Wang, Hans-Heinrich Carstensen, C. Hemken, F. Battin-Leclerc, K. Kohse-Höinghaus*

    Comparative experimental and modeling study of the low- to moderate-temperature oxidation chemistry of 2,5-dimethylfuran, 2-methylfuran, and furan

    Combust. Flame 181, 251-269 (2017).

  • Y. Minenkov*, H. Wang, Z. D. Wang, S. M. Sarathy*, L. Cavallo*

    Heats of formation of medium-size organic compounds from contemporary electronic structure methods

    J. Chem. Theory Comput. 13, 3537-3560 (2017).

  • Z. D. Wang*, D. M. Popolan-Vaida, B. Chen, K. Moshammer, S. Y. Mohamed, H. Wang, S. Sioud, M. A. Raji, K. Kohse-Höinghaus, N. Hansen, P. Dagaut, S. R. Leone, S. M. Sarathy*

    Unraveling the structure and chemical mechanisms of highly oxygenated intermediates in oxidation of organic compounds

    Proc. Natl. Acad. Sci. 114, 13102-13107 (2017).

2016

  • Z. D. Wang*, L. Zhang, K. Moshammer, D. M. Popolan-Vaida, V. S. Bhavani Shankar, A. Lucassen, C. Hemken, C. A. Taatjes, S. R. Leone, K. Kohse-Höinghaus, N. Hansen, P. Dagaut, S. M. Sarathy*

    Additional chain-branching pathways in the low-temperature oxidation of branched alkanes

    Combust. Flame 164, 386-396 (2016).

  • O. Herbinet*, A. Rodriguez, B. Husson, F. Battin-Leclerc, Z. D. Wang, Z. J. Cheng, F. Qi

    Study of the formation of the first aromatic rings in the pyrolysis of cyclopentene

    J. Phys. Chem. A 120, 668-682 (2016).

  • S. Y. Mohamed, L. Cai, F. Khaled, C. Banyon, Z. D. Wang, M. J. Al Rashidi, H. Pitsch, H. J. Curran, A. Farooq, S. M. Sarathy*

    Modeling ignition of a heptane isomer: improved thermodynamics, reaction pathways, kinetic, and rate rule optimizations for 2-methylhexane

    J. Phys. Chem. A 120, 2201-2217 (2016).

  • K. Moshammer, A. W. Jasper, D. M. Popolan-Vaida, Z. D. Wang, V. S. Bhavani Shankar, L. Ruwe, C. A. Taatjes, P. Dagaut, N. Hansen*

    Quantification of hydroperoxymethyl formate and other elusive intermediates in low-temperature combustion of dimethyl ether

    J. Phys. Chem. A 120, 7890-7901 (2016).

  • M. A. Eldeeb, S. Jouzdani, Z. D. Wang, S. M. Sarathy, B. Akih-Kumgeh*

    Experimental and chemical kinetic modeling study of dimethylcyclohexane oxidation and pyrolysis

    Energy Fuels 30, 8648-8657 (2016).

  • X. Y. Fan, G. Q. Wang, Z. D. Wang, Y. Y. Li*, W. H. Yuan, L. Zhao, F. Qi

    Experimental and kinetic modeling study of 1-hexene combustion at various pressures

    Combust. Flame 173, 151-160 (2016).

  • Z. J. Jia, Z. D. Wang, Z. J. Cheng, W. X. Zhou*

    Experimental and modeling study on pyrolysis of n-decane initiated by nitromethane

    Combust. Flame 165, 246-258 (2016).

  • Z. D. Wang*, S. M. Sarathy*

    Third O2 addition reactions promote the low temperature ignition of n-alkanes

    Combust. Flame 165, 364-372 (2016).

2015

  • L. L. Xing, X. Y. Zhang, Z. D. Wang, S. Li, L. D. Zhang*

    New insight into competition between decomposition pathways of hydroperoxymethyl formate in low temperature DME oxidation

    Chin. J. Chem. Phys. 28, 563-572 (2015).

  • H. Bian, Z. Wang, F. Zhang*, Z. D. Wang, J. Zhu,

    Unimolecular reaction properties for the long-chain alkenyl radicals

    Int. J. Chem. Kinet. 47, 685-694 (2015).

  • X. Liu, M. Yao, Y. Wang, Z. D. Wang, H. Jin, L. Wei*

    Experimental and kinetic modeling study of a rich and a stoichiometric low-pressure premixed laminar 2,5-dimethylfuran/oxygen/argon flames

    Combust. Flame 162, 4586-4597 (2015).

  • Z. D. Wang, H. T. Bian, Y. Wang, L. D. Zhang*, L. Y. Li, F. Zhang*, F. Qi

    Investigation on primary decomposition of ethylcyclohexane at atmospheric pyrolysis

    Proc. Combust. Inst. 35, 367-375 (2015).

  • Z. D. Wang, X. Y. Zhang, L. L. Xing, L. D. Zhang, F. Herrmann, K. Moshammer, F. Qi*, K. Kohse-Höinghaus*

    Experimental and kinetic modeling study of the low- and intermediate-temperature oxidation of dimethyl ether

    Combust. Flame 162, 1113-1125 (2015).

  • Z. D. Wang, L. Zhao, Y. Wang, H. T. Bian, L. D. Zhang, F. Zhang, L. Y. Li, S. M. Sarathy, F. Qi*

    Kinetics of ethylcyclohexane pyrolysis and oxidation: An experimental and detailed kinetic modeling study

    Combust. Flame 162, 2873-2892 (2015).

2014

  • J. W. Allen, A. M. Scheer, C. Gao, S. S. Merchant, S. S. Vasu, O. Welz, J. D. Savee, D. L. Osborn, C. Lee, S. Vranckx, Z. D. Wang, F. Qi, R. X. Fernandes, W. H. Green*, M. Z. Hadi, C. A. Taatjes*

    A coordinated investigation of the combustion chemistry of diisopropyl ketone, a prototype for biofuels produced by endophytic fungi

    Combust. Flame 161, 711-724 (2014).

  • L. X. Wei, L. H. Tong, J. Xu, Z. M. Li, Z. D. Wang, H. F. Jin, M. F. Yao, Z. Q. Zheng, H. Y. Li, H. M. Xu*

    Primary combustion intermediates in low-pressure premixed laminar 2,5-dimethylfuran/oxygen/argon flames

    Combust. Sci. Technol. 186, 355-376 (2014).

  • F. Battin-Leclerc*, A. Rodriguez, B. Husson, O. Herbinet, P-A. Glaude, Z. D. Wang, Z. J. Cheng, F. Qi

    Products from the oxidation of linear isomers of hexene

    J. Phys. Chem. A 118, 673-683 (2014).

  • Z. D. Wang, O. Herbinet*, Z. J. Cheng, B. Husson, R. Fournet, F. Qi, F. Battin-Leclerc

    Experimental investigation of the low temperature oxidation of the five isomers of hexane

    J. Phys. Chem. A 118, 5573-5594 (2014).

  • Z. D. Wang, L. L. Ye, W. H. Yuan, L. D. Zhang, Y. Z. Wang, Z. J. Cheng, F. Zhang*, F. Qi*

    Experimental and kinetic modeling study on methylcyclohexane pyrolysis and combustion

    Combust. Flame 161, 84-100 (2014).

2013

  • H. J. Xu, C. D. Yao*, G. L. Xu, Z. D. Wang, H. F. Jin

    Experimental and modelling studies of the effects of methanol and ethanol addition on the laminar premixed low-pressure n-heptane/toluene flames

    Combust. Flame 160, 1333-1344 (2013).

  • Y. Y. Li*, L. D. Zhang, Z. D. Wang, L. L. Ye, J. H. Cai, Z. J. Cheng, F. Qi*

    Experimental and kinetic modeling study of tetralin pyrolysis at low pressure

    Proc. Combust. Inst. 34, 1739-1748 (2013).

  • F. Zhang*, Z. D. Wang, Z. H. Wang, L. D. Zhang, Y. Y. Li, F. Qi

    Kinetics of decomposition and isomerization of methylcyclohexane: Starting point for studying mono-alkylated cyclohexanes combustion

    Energy Fuels 27, 1679-1687 (2013).

  • A. Lucassen1, Z. D. Wang1, L. D. Zhang, F. Zhang, W. H. Yuan, Y. Z. Wang, F. Qi*, K. Kohse-Höinghaus*

    An experimental and theoretical study of pyrrolidine pyrolysis at low pressure

    Proc. Combust. Inst. 34, 641-648 (2013).

  • Z. D. Wang, Y. Y. Li, F. Zhang, L. D. Zhang, W. H. Yuan, Y. Z. Wang, F. Qi*

    An experimental and kinetic modeling investigation on a rich premixed n-propylbenzene flame at low pressure

    Proc. Combust. Inst. 34, 1785-1793 (2013).

2012

  • G. Chen, W. Yu, J. Fu, J. Mo, Z. H. Huang*, J. Z. Yang, Z. D. Wang, H. F. Jin, F. Qi

    Experimental and modeling study of the effects of adding oxygenated fuels to premixed n-heptane flames

    Combust. Flame 159, 2324-2335 (2012).

  • W. Yu, G. Chen, Z. H. Huang*, Z. Y. Chen, J. Gong, J. Z. Yang, Z. D. Wang, F. Qi

    Experimental and kinetic modeling study of methyl butanoate and methyl butanoate/methanol flames at different equivalence ratios and C/O ratios

    Combust. Flame 159, 44-54 (2012).

  • G. Chen, W. Yu, J. Xue, Z. H. Huang*, Z. D. Wang, Z. J. Cheng

    Experimental and modeling study on the influences of methanol on premixed fuel-rich n-heptane flames

    Fuel 103, 467-472 (2012).

  • L. X. Wei, Z. M. Li, L. H. Tong, Z. D. Wang, H. F. Jin, M. F. Yao, Z. Q. Zheng, C. M. Wang, H. M. Xu*

    Primary combustion intermediates in lean and rich low-pressure premixed laminar 2‑methylfuran/oxygen/argon flames

    Energy Fuels 26, 6651-6660 (2012).

  • J. H. Cai, L. D. Zhang, F. Zhang, Z. D. Wang, Z. J. Cheng, W. H. Yuan, F. Qi*

    Experimental and kinetic modeling study of n‑butanol pyrolysis and combustion

    Energy Fuels 26, 5550-5568 (2012).

  • M. Cord, B. Husson, J. C. L. Huerta, O. Herbinet*, P-A. Glaude, R. Fournet, B. Sirjean, F. Battin-Leclerc, M. Ruiz-Lopez, Z. D. Wang, M. F Xie, Z. J Cheng, F. Qi

    Study of the low temperature oxidation of propane

    J. Phys. Chem. A 116, 12214-12228 (2012).

  • O. Herbinet*, B. Husson, Z. Serinyel, M. Cord, V. Warth, R. Fournet, P. A. Glaude, B. Sirjean, F. Battin-Leclerc, Z. D. Wang, M. F. Xie, Z. J. Cheng, F. Qi

    Experimental and modeling investigation of the low-temperature oxidation of n-heptane

    Combust. Flame 159, 3455-3471 (2012).

  • Z. D. Wang, Z. J. Cheng, W. H. Yuan, J. H. Cai, L. D. Zhang, F. Zhang, F. Qi*, J. Wang

    An experimental and kinetic modeling study of cyclohexane pyrolysis at low pressure

    Combust. Flame 159, 2243-2253 (2012).

2011

2010

2009