2019-今 清华大学能源与动力工程系/燃烧能源中心, 长聘教授

2012-2019   清华大学能源与动力工程系/燃烧能源中心, 特别研究员

2012-2012    美国南加州大学航空与机械工程系, Research Associate

2010-2012    美国普林斯顿大学机械与航空工程系, Combustion Energy Research Fellow

2008-2012    美国桑迪亚(Sandia)国家实验室多次访问研究

2006-2012    美国劳伦斯伯克利(Lawrence Berkeley)国家实验室多次访问研究

2006-2010    美国康奈尔大学应用与工程物理系, Postdoctoral Research Associate

Combustion and Flame 客座主编(Guest Editor, 2021-2022)

Combustion Science and Technology副主编(Associate Editor, 2016-)

Fuel编委(2019- )

Journal of Thermal Science编委(2018- )

“燃烧科学与技术”编委(2019- )

“煤炭转化”编委(2020- )

第36届国际燃烧会议反应动力学论坛共同主席(CCC, 2016)

第37届国际燃烧会议反应动力学论坛共同主席(CCC, 2018)

第38届国际燃烧会议反应动力学论坛主席(CC, 2020)

第39届国际燃烧会议低排放燃烧技术论坛共同主席(CCC, 2022)

国际燃烧学会理事提名委员会委员(2014)

国际燃烧学会暑期学校(ICISS)委员会委员(January, June 2015)

国际燃烧学会Hiroshi Tsuji奖评选委员会委员(2017-2018)

国际燃烧学会执委会提名委员会委员(2019)

国际燃烧学会会员(CI), 美国化学学会会员(ACS)，美国质谱学会会员，美国机械工程师协会会员

第10届亚太燃烧会议秘书长(Secretaries-General，2015)

第10届、12届、13届亚太燃烧会议程序委员会委员(2015, 2019, 2021)

第11届国际化学动力学会议(ICCK)科学顾问委员会委员(2019)

GKIAC会议科学顾问委员会委员(2019)

国家同步辐射实验室用户专家委员会委员(2015-)

中国工程热物理学会燃烧学专委会委员(2021-)

中国工程热物理学会燃烧分会奖励委员会委员 (2015-)

第四届、第五届全国青年燃烧学术会议共同主席 (2018, 2019)

2014-2017年中国燃烧学学术年会程序委员会委员(2014-2017)

研究领域：碳中和及空天动力燃料、燃烧反应动力学、燃烧诊断、机器学习与不确定性分析、污染物排放与控制

主要研究方向包括：

1）燃烧反应动力学模型的智能化构建方法（燃烧动力学模型分析与优化平台OptEx、基于神经网络的正向及反向不确定性分析、基于灵敏性熵和灵敏性/活性子空间相似性分析的实验设计、模型降维、人工神经网络及特征提取、数据库及数据挖掘等）

2）燃烧反应动力学机理及燃料设计(碳中和燃料：氢、氨、合成气、多醚类燃料、合成燃料等，生物液体燃料，航空燃料及推进燃料，小分子基础燃料等)

3）燃烧诊断（基于分子束质谱、同步辐射、二维色谱、离子阱质谱等）及基础燃烧实验（快压机、层流火焰、流动管热解、JSR低温氧化等）

4）燃烧反应路径调控（催化燃烧、等离子辅助燃烧、臭氧等活性介质辅助燃烧）

5）极端条件下的燃烧动力学（低温、高压、低压、微重力、超临界）

6）二氧化碳高效催化转化

最近的研究进展：

(1) 燃烧反应动力学模型的正向及反向多尺度不确定性分析：提出了基于人工神经网络的全局灵敏性分析方法(ANN-HDMR)和模型优化方法(ANN-MCMC)；提出了灵敏性熵(HS)和替代模型相似性(灵敏性相似性、活性子空间相似性)等实验设计方法；发展了基于模型分析的实验设计及模型优化平台(OptEx)；提出基于模型分析和快速压缩机的速率常数测量方法；发展了基于组分全局灵敏性的模型简化方法(STGSA)和基于相似性的简化模型评估方法(GSSA)。

(2)低碳燃料及新型生物燃料的燃烧反应动力学研究：碳中和燃料、小分子基础燃料、典型生物液体燃料、空天动力燃料等的燃烧动力学模型的构建、实验验证及不确定性分析；含氧官能团（高碳醇、醛酮、醚、多醚、碳酸酯等）对碳氢类燃料燃烧的影响及基于燃料设计的反应路径调控减排机制。

(3) 等离子、臭氧、催化剂等活性介质辅助燃烧研究：小分子基础燃料、碳中和燃料、发动机实际燃料等离子体辅助条件下的详细组分诊断及热解和氧化机理研究。

国际燃烧学会会士(Fellow of the Combustion Institute)，2021

第38届国际燃烧会议主旨邀请报告(Invited Topical Review)，2021

清华大学优秀本科生班主任，2021

国际燃烧学会杰出研究奖(Research Excellence Award)，2020

国家自然科学二等奖 (第三完成人)，“发动机燃烧反应网络调控理论及方法”，2018

清华大学优秀博士生导师，2018

The 56th Korean Society of Combustion Symposium, Plenary Lecture，2018

安徽省科学技术奖一等奖 (第三完成人)，“燃烧微观结构和反应动力学研究”，2014

美国能源部燃烧能源前沿研究中心 Combustion Energy Research Fellow，2010

第二届“中国百篇最具影响优秀国际学术论文”，2008

中国科学技术大学优秀毕业生，2001

软件著作权：燃烧反应动力学实验设计与模型优化平台 【简称： OptEx】2021

代表性论文（共发表SCI论文107篇，其中CNF和PCI论文65篇，共被SCI引用3000余次, Publons #: A-7158-2008， ORCID: 0000-0001-7333-0017，https://www.researchgate.net/profile/Bin_Yang110）：

1. B. Yang*, "Towards predictive combustion kinetic models: Progress in model analysis and informative experiments", Proc. Combust. Inst., 38, 199-222 (2021).

2. B. Yang, W. Sun, K. Moshammer, N. Hansen*, "Review of the influence of oxygenated additives on the combustion chemistry of hydrocarbons", Energy Fuels 35, 13550-13568 (2021).

3. 杨斌*，刘仲恺, 林柯利，廖万雄，王乔，“面向碳中和与先进动力的燃烧反应动力学研究方法发展”, 清华大学学报 (2021).

4. 杨斌，张英佳，李玉阳，陈正，黄佐华*，齐飞*,“面向碳中和的燃烧反应动力学研究进展与展望”, 工程热物理学报 (2021).

5. W. Liao, S. Kang, Z Chu, Z. Liu, Y. Wang, B. Yang*,“Exploring the low-temperature oxidation chemistry with ozone addition in an RCM: A case study on ethanol”, Combust. Flame, (2021).

6. S. Kang, W. Liao, Z. Chu, B. Yang*, “A rapid compression machine coupled with time-resolved molecular beam mass spectrometry for gas-phase kinetics studies”, Rev. Sci. Instrum., 92, 084103 (2021).

7. X. Fan, Z. Liu, J. Yang, B. Yang*, “Pyrolysis of Lignocellulosic Biofuel Di-n-butyl Ether (DBE): Flow Reactor Experiments and Kinetic Modeling”, Energy Fuels, 35, 14077−14086 (2021).

8. Z. Liu, W. Sun, Q. Hou, Y. Gao, X. Fan, S. Kang, H. Liao, W. Chen, F. Zhang, J. Yang, B. Yang*,“Experimental and kinetic modeling investigation on 2,5-hexanedione oxidation in a jet-stirred reactor”, Combust. Flame, 234, 111648 (2021).

9. S. Kang, W. Dong, W. Liang*, B Yang*, “An experimental investigation on two-stage low-temperature heat release in iso-octane auto-ignition”, Combust. Flame, 234, 111636 (2021).

10. X. Fan, W. Sun, Y. Gao, N. Hansen, B. Chen, H. Pitsch, B. Yang*, “Chemical insights into the multi-regime low-temperature oxidation of di-n-propyl ether: Jet-stirred reactor experiments and kinetic modeling”, Combust. Flame, 233, 111592 (2021).

11. K. Lin, Z. Zhou, C. K. Law, B. Yang*, “Dimensionality reduction for surrogate model construction for global sensitivity analysis: Comparison between active subspace and local sensitivity analysis”, Combust. Flame, 232, 111501 (2021).

12. W. Sun, Z. Liu, Y. Zhang, Y. Zhai, C. Cao, J. Yang, B. Yang*, "Comparing the pyrolysis kinetics of dimethoxymethane and 1,2-dimethoxyethane: An experimental and kinetic modeling study", Combust. Flame, 226, 260-273 (2021).

13. R. Zhang, H. Liao, J. Yang, B. Yang*, "Exploring chemical kinetics of plasma assisted oxidation of dimethyl ether (DME)", Combust. Flame, 225, 388-394 (2021).

14. S. Lin, M. Xie, J. Wang, W. Liang, C.K. Law, W. Zhou*, B. Yang*, "Chemical kinetic model reduction through species-targeted global sensitivity analysis (STGSA)", Combust. Flame, 224, (2021).

15. S. Kang, C. Huang, Y. Wang, P. Zhang, W. Sun, C.K. Law, B. Yang*, "Isomer-specifc influences on ignition and intermediates of two C5 ketones in an RCM", Proc. Combust. Inst., 38, 2295–2303 (2021).

16. X. Fan, W. Sun, Z. Liu, J. Yang, B. Yang*, C.K. Law, "Exploring the oxidation chemistry of diisopropyl ether: jet-stirred reactor experiments and kinetic modeling", Proc. Combust. Inst., 38, 321–328, (2021).

17. C. Huang, P. Zhang, J. Wang, S. Kang, F. Zhang*, C.K. Law, B. Yang*, "Determination of rate constants for therneutral H-abstraction reactions: allylic hydrogen abstraction from 1,5-hexadiene by ally radical", Proc. Combust. Inst., 38, 861–869(2021).

18. C. Huang, S. Li, T. Tao, F. Zhang, N. Hansen, C.K. Law, B. Yang*, "From inherent correlation to constrained measurement: model-assisted calibartion in MBMS experiments", Proc. Combust. Inst., 38, 1071–1079 (2021).

19. S. Lin, W. Zhou*, Y. Wu, C.K. Law, M. Xie, B. Yang*, "Evaluation of reducted combustion kinetic mechanism using global sensitivity-based similarity analysis (GSSA)", Proc. Combust. Inst., 38, 1081–1088 (2021).

20. H. Liao, T. Tao, W. Sun, N. Hansen, B. Yang*, "Isomer-specific speciation behaviors probled from premixed flames fueld by acetone and propanal", Proc. Combust. Inst., 38, 2441–2448 (2021).

21. M. Braun-Unkhoff,* N. Hansen*, M. Dietrich, T. Methling,K. Moshammer, B. Yang, "Entanglement of n-heptane and iso-butanol chemistries in flames fueled by their mixtures", Proc. Combust. Inst., 38, 2387–2395 (2021).

22. M. Yang, S. Lin, H. Liao, S. Kang, B. Yang*, " A new jet fuel surrogate formulated by emulating the distribution of pyrolysis products obtained from shock tube experiments", Fuel, 283, 118874 (2021).

23. H. Liao, H. Chen, Z. Liu, R. Zhang, F. Zhang, B. Yang*, " MBMS study on plasma-assisted low-temperature oxidation of n-heptane and iso-octane in a flow reactor", Int. J. Chem. Kinet., 53, 428–439 (2021).

24. C. Huang, S. Li, J. Wang, B. Yang*, F. Zhang*, "Global uncertainty analysis for the RRKM/master equation modeling of a typical multi-well and multi-channel reaction system", Combust. Flame, 216, 62-71 (2020).

25. H. Liao, S. Kang, N. Hansen, F. Zhang, B. Yang*, “Influence of ozone addition on the low-temperature oxidation of dimethyl ether in a jet-stirred reactor”, Combust. Flame, 214, 277-286 (2020).

26. J. Wang, Z. Zhou, K. Lin, C.K. Law, B. Yang*, "Facilitating Bayesian analysis of combustion kinetic models with artificial neural network", Combust. Flame, 213, 87-97 (2020).

27. W. Sun, J. Wang, C. Huang, N. Hansen, B. Yang*, "Providing effective constraints for developing ketene combustion mechanisms: A detailed kinetic investigation of diacetyl flames", Combust. Flame, 205, 11-21 (2019).

28. C. Huang, B. Yang, F. Zhang*, “Calculation of the absolute photoionization cross-sections for C1–C4 Criegee intermediates and vinyl hydroperoxides”, J. Chem. Phys., 150, 164305 (2019).

29. R. Zhang, H. Liao, J. Yang, X. Fan, B. Yang*, “A molecular beam mass spectrometric investigation of plasma assisted oxidation and pyrolysis of methane”, Proc. Combust. Inst., 37, 5577-5586 (2019).

30. W. Sun, T. Tao, H. Liao, N. Hansen, B. Yang*, “Probing fuel-specific reaction intermediates from laminar premixed flames fueled by two C5 ketones and model interpretations”, Proc. Combust. Inst., 37, 1699-1707 (2019).

31. H. Liao, T. Tao, W. Sun, N. Hansen, C.K. Law, B. Yang*, “Investigation of the low-temperature oxidation of n-butanal in a jet-stirred reactor”, Proc. Combust. Inst., 37, 453-460 (2019).

32. W. Sun, M. Lailiau, Z. Serinyel, G. Dayma, K. Moshammer, N. Hansen, B. Yang*, P. Dagaut*, “Insights into the oxidation kinetics of a cetane improver – 1,2-dimethoxyethane (1,2-DME) with experimental and modeling methods”, Proc. Combust. Inst., 37, 555-564 (2019).

33. J. Wang, W. Sun, G. Wang, X. Fan, Y.-Y Li, , C.K. Law, F. Qi, B. Yang*, “Understanding benzene formation pathways in pyrolysis of two C6H10 isomers: Cyclohexene and 1,5-hexadiene”, Proc. Combust. Inst., 37, 1091-1098 (2019).

34. C. Huang, B. Yang*, F. Zhang*, G. Tian, “Quantification of the resonance stabilized C4H5 isomers and their reaction with acetylene”, Combust. Flame, 198, 334-341 (2018).

35. L. Zhao, W. Sun, J. Yang*, B. Yang*, “Revealing the doping effects of C₂H₆O isomers on a benzene flame: An experimental and modeling study”, Combust. Flame, 197, 355-368 (2018).

36. T. Tao, S. Kang, W. Su, J. Wang, H. Liao, K. Moshammer, N. Hansen, C.K. Law, B. Yang*, “A further experimental and modeling study of acetaldehyde combustion kinetics”, Combust. Flame, 196, 337-350 (2018).

37. W. Sun, T. Tao, M. Lailliau, N. Hansen, B. Yang*, P. Dagaut*, “Exploration of the oxidation chemistry of dimethoxymethane: Jet-stirred reactor experiments and kinetic modeling”, Combust. Flame, 193, 491-501 (2018).

38. T. Tao, W. Sun, N. Hansen, A.W. Jasper, K. Moshammer, B. Chen, Z. 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).

39. W. Sun, T. Tao, R. Zhang, W. Li, J. Yang, B. Yang*, “Elucidating the flame chemistry of monoglyme via experimental and modeling approaches”, Combust. Flame, 191, 298-308 (2018).

40. W. Ji, J. Wang, O. Zahm, Y.M. Marzouk, B. Yang, Z. Ren*, C.K. Law, “Shared low-dimensional subspaces for propagating kinetic uncertainty to multiple outputs”, Combust. Flame, 190, 146-157 (2018).

41. P. Zhang, N.W. Yee, S.V. Filip, C.E. Hetrick, B. Yang, W.H. Green*, “Modeling study of the anti-knock tendency of substituted phenols as additives: an application of the reaction mechanism generator (RMG) ”, Phys. Chem. Chem. Phys., 20, 10637-10649 (2018).

42. J. Wang, S. Li, B. Yang*,“Combustion kinetic model development using surrogate model similarity method ”, Combust. Theory Modell., 22, 777-794 (2018).

43. P. Zhang, S. Li, Y. Wang, W. Ji, W. Sun, B. Yang*, X. He, Z. Wang, C.K. Law, F. Zhang*, "Measurement of reaction rate constants using RCM: A case study of decomposition of dimethyl carbonate to dimethyl ether", Combust. Flame, 183, 30-38 (2017).

44. W. Sun, T. Tao, R. Zhang, H. Liao, C. Huang, F. Zhang, X. Zhang, Y. Zhang, B. Yang*, "Experimental and modeling efforts towards a better understanding of the high-temperature combustion kinetics of C₃-C₅ ethyl esters", Combust. Flame, 185, 173-187 (2017).

45. C. Huang, B. Yang*, F. Zhang*, "Initiation mechanism of 1,3-butadiene combustion and its effect on soot precursors", Combust. Flame, 184, 167-175 (2017).

46. W. Sun, C. Huang, T. Tao, F. Zhang, W. Li, N. Hansen, B. Yang*, "Exploring the high-temperature kinetics of diethyl carbonate (DEC) under pyrolysis and flame conditions", Combust. Flame, 181, 71-81 (2017).

47. C. Huang, B. Yang*, F. Zhang*, "Pressure-dependent kinetics on the C4H7 potential energy surface and its effect on combustion kinetic model predictions", Combust. Flame, 181,100-109 (2017).

48. N. Hansen, B. Yang, T. Kasper，“Synchrotron-Based VUV Photoionization Mass Spectrometry in Combustion Chemistry Research", Synchrotron Radiation Applications, World Scientific/Imperial College Press., (2017).

49. J. Wang, S. Li, B. Yang*, "The constraint effect of low pressure experimental data on high pressure combustion model predictions", J. Eng. Thermophys., 38 (2017).

50. S. Li, T. Tao, J. Wang, B. Yang*, C.K. Law, F. Qi, "Using sensitivity entropy in experimental design for uncertainty minimization of combustion kinetic models", Proc. Combust. Inst., 36, 709-716 (2017).

51. W. Sun, B. Yang*, N. Hansen, K. Moshammer, "The influence of dimethoxy methane (DMM)/dimethyl carbonate (DMC) addition on a premixed ethane/oxygen/argon flame", Proc. Combust. Inst., 36, 449-457 (2017).

52. R. Zhang, W. Sun, T. Tao, B. Yang*, "Species diagnostics and modeling study of laminar premixed flames fueled by Aceton-Butanol-Ethanol (ABE)", Proc. Combust. Inst., 36, 1303-1310 (2017).

53. W. Sun, G. Wang, S. Li, R. Zhang, B. Yang*, J. Yang, Y. Li, C.K. Westbrook, C.K. Law, "Speciation and the laminar burning velocities of poly(oymethylene) dimethyl ether 3 (POMDME3) flames: An experimental and modeling study", Proc. Combst. Inst., 36, 1269-1278 (2017).

54. T. Tao, W. Sun, B. Yang*, N. Hansen, K. Moshammer, C.K. Law, "Investigation of chemical structures of laminar premixed flames fueled by acetaldehyde", Proc. Combst. Inst., 36, 1287-1294 (2017).

55. M. Braun-Unkhoff*, N. Hansen*, T. Methling, K. Moshammer, B. Yang, "The influence of iso-butanol addition to the chemistry of premixed 1,3-butadiene flames", Proc. combst. Inst., 36, 1311-1319 (2017).

56. T. He, S. Li, Y. Chi, H. Zhang, Z. Wang*, B. Yang, X. He, X. You*, " An adaptive distance-based group contribution method for thermodynamic property prediction", Phys. Chem. Chem. Phys., 18, 23822-23830 (2016).

57. P. Zhang, W. Ji, T. He, X. He*, Z. Wang, B. Yang, C.K. Law, "First-stage ignition delay in the negative temperature coefficient behavior: Experiment and simulation", Combust. Flame, 167, 14-23 (2016).

58. S. Li, B. Yang*, F. Qi, "Accelerate global sensitivity analysis using Artificial Neural Network algorithm: Case studies for combustion kinetic model", Combust. Flame, 168, 53-64 (2016).

59. W. Sun, B. Yang*, N. Hansen, C.K. Westbrook, F. Zhang, G. Wang, K. Moshammer, C.K. Law, "An experimental and kinetic modeling study on dimethyl carbonate (DMC) pyrolysis and combustion", Combust. Flame, 164, 224-238 (2016).

60.   L. Xing, S. Li, Z. Wang, B. Yang, S.J. Klippenstein, F. Zhang*, "Global uncertainty analysis for RRKM/master equation based kinetic predictions:  A case study of ethanol decomposition", Combust. Flame, 162, 3427-3436 (2015).

61. O.P. Korobeinichev, I.E. Gerasimov, D.A. Knyazkov, A.G. Shmakov, T.A. Bolshova, N. Hansen, C.K. Westbrook*, G. Dayma, B. Yang, “An experimental and kinetic modeling study of premixed laminar flames of methyl pentanoate and methyl hexanoate”, Z. Phys. Chem., 229, 759-780 (2015).

62. N. Hansen*, M. Braun-Unkhoff, T. Kathrotia, A. Lucassen, B. Yang, “Understanding the reaction pathways in premixed flames fueled by blends of 1,3-butadiene and n-butanol”, Proc. Combust. Inst. 35, 771-778 (2015).

63. Y. Xin, B. Yang,  H. Wang, S.L. Anderson, C.K. Law*, “Kinetics of catalytic oxidation of ethylene over palladium oxide”, Proc. Combust. Inst. 35, 2233-2240 (2015).

64. X. Zhang, B. Yang*, W. Yuan, Z. Cheng, L. Zhang, Y. Li, F. Qi, “Pyrolysis of 2-methyl-1-butanol at low and atmospheric pressure: Mass spectrometry and modeling studies", Proc. Combust. Inst. 35, 409-417 (2015).

65. B. Yang, C.K. Westbrook*, T.A. Cool, N. Hansen, K. Kohse-Höinghaus, “Photoionization mass spectrometry and modeling study of premixed flames of three unsaturated C₅H₈O₂ esters”, Proc. Combust. Inst. 34, 443-451 (2013).

66. S. Skeen, B. Yang, H.A. Michelsen, J.A. Miller, A. Violi, N. Hansen*, “Studies of opposed-flow diffusion flames of acetylene at low pressures with photoionization mass spectrometry”, Proc. Combust. Inst. 34, 1067-1075 (2013).

67. B. Yang, J. Wang, T.A. Cool*, N. Hansen, S. Skeen, D.L. Osborn, “Absolute photoionization cross-sections for some combustion intermediates”, Int. J. Mass Spectrom., 309, 118-128 (2012).

68. S. Skeen*, B. Yang, A.W. Jasper, W.J. Pitz, N. Hansen*, “The chemical structure of low-pressure premixed methylcyclohexane flames as benchmarks for the development of a predictive combustion chemistry model”, Energy and Fuel, 25, 5611-5625 (2011).

69. B. Yang, C. Westbrook*, T.A. Cool, N. Hansen, K. Kohse-Höinghaus, “The effect of carbon-carbon double bonds on the combustion chemistry of small fatty acid esters”, Z. Phys. Chem.,225, 1293–1314 (2011).

70. P. Oßwald, H. Güldenberg, K. Kohse-Höinghaus*, B. Yang, T. Yuan, F. Qi*, “Combustion of butanol isomers – a detailed molecular beam mass spectrometry investigation of their flame chemistry”, Combust. Flame, 158, 2-11 (2011).

71. S. Dooley*, F.L. Dryer, B. Yang, J. Wang, T.A. Cool, T. Kasper, N. Hansen, “An experimental and kinetic modeling study of methyl formate low-pressure flames”, Combust. Flame, 158, 732-341 (2011).

72. B. Yang, C. Westbrook*, T.A. Cool*, N. Hansen, K. Kohse-Höinghaus, “Fuel-specific influences on the composition of reaction intermediates in premixed flames of three C₅H₁₀O₂ester isomers”, Phys. Chem. Chem. Phys., 13, 6901-6913 (2011).

73. J. Wang, Y. Li, T. Zhang, Z. Tian, B. Yang, K. Zhang, F. Qi*, A. Zhu, Z. Cui, C.Y. Ng*, “Interstellar enols are formed in plasma discharge of alcohols”, Astrophysical Journal, 676,416-419 (2008).

74. B. Yang, P. Osswald, Y. Li, J. Wang, L. Wei, Z. Tian, F. Qi*, K. Kohse-Höinghaus*, “Identification of combustion intermediates in isomeric fuel-rich premixed butanol-oxygen flames at low pressure”, Combust. Flame, 148,198-209 (2007).

75. B. Yang, Y. Li, L. Wei, C. Huang, J. Wang, Z. Tian, R. Yang, L. Sheng, Y. Zhang, F. Qi*, “An experimental study of the premixed benzene/oxygen/argon flame with tunable synchrotron photoionization”, Proc. Combust. Inst. 31, 555-563 (2007).