一、基本情况：

（1）学习及工作经历

2016.09-2020.06 重庆大学，动力工程及工程热物理专业，博士，导师：刘朝教授；

2019.01-2020.03 美国华盛顿州立大学，生物系统工程专业，联合培养博士，导师：Prof. Hanwu Lei；

2020.12-至   今 苏州科技大学，物理科学与技术学院，讲师、副教授。

（2）教学活动

①指导2022年和2024年大学生创新创业训练计划创新训练项目（国家级）各1项、21年大学生创新创业训练计划创新训练项目（省级）1项；指导2021级本科毕业生获得校级优秀毕业论文1篇。

②指导2024年江苏省研究生新材料物理科研创新实践大赛三等奖、2025年江苏省研究生新材料物理科研创新实践大赛二等奖和三等奖。

每年招收硕士研究生1-2名，指导科研创新本科生2-4名。

二、主要研究领域及学术成就：

（1）主要研究领域

低碳能源利用系统设计与优化（工业余热、海洋温差能与地热能等）、有机工质评估和筛选（热稳定性、燃爆特性与热力性能等）、有机废弃物低碳资源化（生物质、塑料与氢氟烃制冷剂等）、新型太阳能蒸发器理性设计与优化等。

（2）主要学术成就

入选2023、2024和2025年度全球前2%顶尖科学家榜单，入选2024年江苏省科技副总，获得2021年重庆大学优秀博士学位论文、2019年重庆大学博士研究生国家奖学金。

三、代表性科研成果：

（1）科研项目

1. 国家自然科学基金面上项目，负责人

2. 国家自然科学基金青年项目，负责人

3. 苏州市农业科技创新项目，负责人

4. 江苏省高等学校自然科学研究面上项目，负责人

5. 低品位能源利用技术及系统教育部重点实验室开放课题，负责人

6. 重庆市研究生创新基金项目，负责人

（2）发表论文

期刊论文（第一作者/通讯作者在国内外知名期刊发表SCI论文40余篇、EI论文3篇、Web of Science引用3000余次及H指数31）：

1. S. Wang, C. Liu*, W. Yu, E. Huo*, Valorization of waste R227ea refrigerant into fuels and chemicals via supercritical water gasification: A ReaxFF-MD and DFT study, Journal of Environmental Management, 404 (2026) 129460.

2. Z, Liu (22级本科生), M. Si (22级本科生), L. Liu (22级本科生), G. Yin, X. Mo, Z. Tang, M. Bai*, E. Huo*, Nanoarchitecturing biomimetic structure at the junction nodes of microporous network for high-efficiency solar steam generation, Desalination, 626 (2026) 119968.

3. Y. Zhang (22级本科生), G. Yin, M. Fu (22级本科生), M. Bai*, S. Zhang, S. Cai, S. Wang, E. Huo*, Cost-effective reeds-inspired zizania latifolia-derived evaporator for stable solar evaporation, Separation and Purification Technology, 387 (2026) 136710.

4. M. Bai, E. Huo*, W. Zhuang, J. Wang, Co-pyrolysis mechanism of 1,1,1,2-tetrafluoroethane and soapstock: ReaxFF molecular dynamic and density functional theory study, Journal of Environmental Chemical Engineering 14 (2026) 120862.

5. S. Zhang*, Y. Yu, J. Yin, L. Li, H. Liu, E. Huo*, R. Huang, S. Wang*, Multi-objective optimization and comprehensive assessment of CO₂-based mixtures with thermal stability constraints for parabolic trough concentrated solar thermal power plants, Energy, 26 (2026) 139386.

6. S. Wang, X. Luo, E. Huo*, S. Zhang**, Z. Guan***, Insights into the hydrogen-producing mechanism of lignin model compounds via alcoholysis reaction using quantum chemistry methods, Biomass and Bioenergy, 206 (2026) 108690.

7. G. Yin (23级硕士), L. Zhao (21级本科生), Y. Chen (21级本科生), S. Song (22级硕士), S. Wang, E. Huo*, S. Zhang**, M. Bai***, High-efficiency vapor generation via corncob derived solar evaporator loaded by carbon dusts, Applied Thermal Engineering 281 (2025) 128801.

8. J. Wang (23级硕士), M. Bai*, W. Zhuang, S. Wang, S. Zhang, S. Cai, E. Huo*, ReaxFF reactive molecular dynamic simulation and density functional theory calculation of pyrolysis mechanism and electronic characteristic of lignin with the addition of plastics, Computational and Theoretical Chemistry 1254 (2025) 115511.

9. H. Wu (21级本科生), Z. Du (21级本科生), S. Song (22级硕士), Y. Gui, E. Huo*, M. Bai*, Bioinspired waste corncob-derived evaporator for stable solar evaporation, Applied Thermal Engineering, 2025 127394.

10. M. Bai, J. Wang, S. Zhang, E. Huo*, S. Wang, S. Cai, Enhanced production of syngas from supercritical water gasification of lignin in a CO₂ atmosphere: ReaxFF molecular dynamic simulation and DFT calculation study, International Journal of Biological Macromolecules, 2025(319) 145512.

11. G. Yin (23级硕士), D. Deng (21级本科生), E. Huo*, M. Bai*, Monstera adansonii-inspired lignocellulose-derived bionic solar evaporator for solar steam generation, International Journal of Biological Macromolecules, 2025(313) 144225.

12. L. Kou (21级本科生), J. Guo (21级本科生), J. Wang, M. Bai*, E. Huo*, Jet Fuel Range Products Produced from Catalytic Pyrolysis of Low-Density Polyethylene with a Bimetallic Mg-Mo/Biochar Catalyst, ACS Sustainable Chemistry & Engineering, 2025(12) 4661-4671.

13. M. Bai, E. Huo*, S. Wang, S. Cai, S. Zhang, Supercritical water co-gasification of waste R134a and plastics to produce valuable chemicals and fuels: ReaxFF reactive molecular dynamic simulation, Journal of Environmental Chemical Engineering, 2024(12):114407.

14. M. Bai, E. Huo*, S. Wang, S. Cai, S. Zhang, Catalytic pyrolysis mechanism of waste R134a/R32 refrigerant mixture over Cu(111) surface: Density functional theory study, Computational and Theoretical Chemistry, 2024(1241) 114876.

15. S. Song (22级硕士), E. Huo*, M. Bai*, G. Yin, Y. Zhang, S. Wang, S. Zhang, S. Cai, Plant transpiration inspired biomass-derived solar evaporator for highly efficient solar vapor generation, Separation and Purification Technology, 2025(354) 129413.

16. M. Bai, E. Huo*, J. Wang, Q. Zhang, S. Wang, S. Cai, S. Zhang, ReaxFF reactive molecular dynamic and density functional theory study on the co-pyrolysis mechanism of waste 1,1,1,2-tetrafluoroethane and waste plastics to produce high value-added chemicals and fuels, Energy, 2024(299) 131505.

17. S. Zhang*, Y. Yu, R. Huang, J. Yin, E. Huo*, ReaxFF reactive molecular dynamic and density functional theory study on supercritical water gasification of waste hydrofluorocarbons to fuels, Energy, 2024(299) 131434.

18. M. Bai, E. Huo*, W. Zhang, L. Kou, S. Wang, S. Cai, S. Zhang, Supercritical water gasification of waste R410A refrigerant mixture for the resource utilization: ReaxFF reactive molecular dynamic simulation and density functional theory calculation study, International Journal of Refrigeration, 2024(158) 25-34.

19. E. Huo, D. Xu, S. Wang, Y. Chen*, Thermal decomposition mechanism and thermal stability prediction of n-pentane/n-butane mixture, Energy, 2023(284) 128585.

20. M. Bai, E. Huo*, Y. Sun, S. Wang, Y. Zhao, Q. Zhang, C. Wang, R. Zou, M. Qian, H. Lei, Supercritical water co-gasification mechanism of lignin and low density polyethylene into syngas: ReaxFF molecular dynamic simulation and density functional theory calculation study, Fuel Processing Technology, 2023(250) 107877.

21. E. Huo, W. Chen, Z. Deng, W. Gao, Y. Chen* Thermodynamic analysis and optimization of a combined cooling and power system using ocean thermal energy and solar energy, Energy, 2023(278) 127956.

22. S. Wang, E. Huo*, Z. Guan, S. Cai, Pyrolysis mechanism of HFO-1234yf/iso-butane mixture: ReaxFF reactive molecular dynamic simulation study, Computational and Theoretical Chemistry, 2023(1233) 114098.

23. M. Si (20级本科生), L. Kuai (20级本科生), E. Huo*, L. Li, M. Bai*, Thermal decomposition and interaction mechanism of HFC-134a/HFC-32 mixture in Organic Rankine Cycle, Journal of Environmental Chemical Engineering, 2022(6) 108947.

24. M. Bai*, Z. Song, Z. Yang, Z. Guo, Y. Liu, H. Guo, H. Lei, E. Huo*, Catalytic conversion mechanism of guaiacol as the intermediate of lignin catalytic pyrolysis on MgO surface: Density functional theory calculation, Journal of Molecular Liquids, 2022(369) 120920.

25. E. Huo*, S. Wang, M. Bai*, The thermal decomposition and interaction mechanism of HFC-245fa/ HFC-227ea mixture: A reactive molecular dynamic simulation and density functional method calculation study, Computational and Theoretical Chemistry, 2022(1217) 113935.

26. E. Huo*, L. Xin, S. Wang, Thermal stability and pyrolysis mechanism of working fluids for organic Rankine cycle: A review, International Journal of Energy Research, 2022(14) 19341-19356.

27. M. Bai, Z. Song, Z. Yang, Y. Liu, M. Qian, Ro. Zou, H. Lei, Y. Zhang, E. Huo*, Catalytic co-pyrolysis of low-density polyethylene (LDPE) and lignin for jet fuel range hydrocarbons over activated carbon catalyst, International Journal of Energy Research, 2022(13) 18529-18539.

28. Z. Song (19级本科生), M. Bai*, Z. Yang, H. Lei, M. Qian, Y. Zhao, R. Zou, C. Wang, E. Huo*, Gasification of α-O-4 linkage lignin dimer in supercritical water into hydrogen and carbon monoxide: Reactive molecular dynamic simulation study, Fuel, 2022(329) 125387.

29. E Huo*, S Zhang, L Xin, S Wang, S Cai, L Zhang, M Bai*, Pyrolysis mechanism study of n-heptane as an endothermic hydrocarbon fuel: A reactive molecular dynamic simulation and density functional theory calculation study, Computational and Theoretical Chemistry, 2022(1211) 113696.

30. E. Huo, Z. Hu, S. Wang, L. Xin, M Bai, Thermal decomposition and interaction mechanism of HFC-227ea/n-hexane as a zeotropic working fluid for organic Rankine cycle, Energy, 2022 (246) 123435；

31. E Huo*, L Xin, S Zhang, C Liu, S Wang, L Zhang, The combustion mechanism of leaking propane (R290) in O₂ and O₂/H₂O environments: ReaxFF molecular dynamics and density functional theory study, Process Safety and Environmental Protection, 2022(161) 603-610;

32. E. Huo*, L. Xin, S. Wang, Q. Li, C. Liu, The impact of H₂O on the combustion of n-pentane: A reactive molecular dynamic simulation study, Journal of Molecular Liquids, 2022(345) 117036;

33. E. Huo*, C. Liu, L. Xin, Y. Zhang, Y. Zhao, M. Qian, X. Lin, H. Lei*, Jet fuel range hydrocarbons production by co-pyrolysis of low density polyethylene and wheat straw over activated carbon catalyst, Sustainable Energy & Fuels, 2021, 5(23) 6145-6156;

34. E. Huo*, L. Xin, C. Liu, S. Wang, Combustion mechanism of n-pentane, isopentane and neopentane as environmentally friendly workings: ReaxFF molecular dynamic simulations study, Theoretical Chemistry Accounts, 2021, 140(11): 1-13;

35. E. Huo, Q. Li, C. Liu*, Z. Huang*, L. Xin, Experimental and theoretical studies on the thermal stability and decomposition mechanism of HFO-1336mzz(Z) with POE lubricant, Journal of Analytical and Applied Pyrolysis 147 (2020) 104795；

36. E. Huo, D. Duan, H. Lei, C. Liu, Y. Zhang, J. Wu, Y. Zhao, Z. Huang, M. Qian, Q. Zhang, X. Lin, C. Wang, W. Mateo, E. M. Villota, R. Ruan, Phenols production form Douglas fir catalytic pyrolysis with MgO and biomass-derived activated carbon catalysts, Energy 199 (2020) 117459；

37. E. Huo, H. Lei, C. Liu, Y. Zhang, L. Xin, Y. Zhao, M. Qian, Q. Zhang, X. Lin, C. Wang, W. Mateo, E. M. Villota, R. Ruan, Jet fuel and hydrogen produced from waste plastics catalytic pyrolysis with activated carbon and MgO, Science of The Total Environment, 2020(727) 138411;

38. 霍二光，刘朝*，李期斌，王述昆，辛立勇, 基于ReaxFF模拟的正戊烷热分解机理研究, 工程热物理学报, 2020(01) 61-67；

39. E. Huo, C. Liu*, X. Xu, L. Liu, S. Wang, Dissociation mechanism of HFC-245fa on Cu(1 1 1) surfaces with and without oxygen-covered: A density functional theory study, Applied Surface Science, 2019(480) 487-496；

40. E. Huo, C. Liu*, L. Xin, X. Li, X. Xu, Q. Li, S. Wang, C. Dang, Thermal stability and decomposition mechanism of HFO-1336mzz(Z) as an environmental friendly working fluid: experimental and theoretical study, International Journal of Energy Research, 2019(43) 4630-4643；

41. E. Huo, C. Liu*, X. Xu, Q. Li, C. Dang, S. Wang, C. Zhang, The oxidation decomposition mechanisms of HFO-1336mzz(Z) as an environmentally friendly refrigerant in O₂/H₂O environment, Energy, 2019(185) 1154-1162；

42. 霍二光，刘朝*，徐肖肖, HFO-1336mzz(Z)氧化分解机理的DFT研究, 工程热物理学报, 2019(02) 252-257；

43. E. Huo, C. Liu*, X. Xu, Q. Li, C. Dang, Dissociation mechanisms of HFO-1336mzz(Z) on Cu(1 1 1), Cu(1 1 0) and Cu(1 0 0) surfaces: A density functional theory study, Applied Surface Science, 2018(443) 389-400；

44. E. Huo, C. Liu*, X. Xu, Q. Li, C. Dang,A ReaxFF-based molecular dynamics study of the oxidation decomposition mechanism of HFO-1336mzz(Z), International Journal of Refrigeration, 2018(93) 249-258；

45. E. Huo, C. Liu*, X. Xu, C. Dang, A ReaxFF-based molecular dynamics study of the pyrolysis mechanism of HFO-1336mzz(Z), International Journal of Refrigeration, 2017(83) 118-130；

46. 霍二光，戴源德，耿平，曹孟冰，R1234ze与R152a混合制冷剂替代R22的可行性, 化工学报, 2015(12) 4725-4729.

会议论文：

1. E Huo*, C Liu, X Xu, THEORETICAL INVESTIGATION OF THE THERMAL DECOMPOSITION MECHANISM OF HFO-1336MZZ(Z), 9th Asian Conference on Refrigeration and Air Conditioning, June 11-13, 2018, Sapporo, JAPAN (口头报告，EI收录会议论文)；

2. 霍二光*, 刘一周, 杨峥, 宋知衡, 郭志青, 郭浩然, 白孟娜*, 刘朝, 基于活性炭催化剂的低密度聚乙烯和木质素催化共热解生成芳香烃的研究, 2021年工程热物理年会工程热力学与能源利用分会，2022年4月，长沙（口头报告）；

3. 霍二光，刘朝*，徐肖肖, HFO-1336mzz(Z)氧化分解机理的DFT研究, 2017年工程热物理年会工程热力学与能源利用分会，2017年10月，宁波（口头报告）.