钟恒(Zhong Heng)
副教授
电子邮件:zhong.h@sjtu.edu.cn
办公室电话:021-54745410
办公地点:环境楼309

研究方向

最新信息请关注课题组官网: fmjin.sjtu.edu.cn

二氧化碳资源化,生物质转化以及氢能源的储存与利用,主要包括:

1.水热法、热催化法及电催化法还原二氧化碳产高附加值有机产物;

2.水热法及电催化法转化生物质及其衍生物产高附加值产物;

3.液体储氢材料(如甲酸)的开发和应用。

Carbon dioxide (CO2) conversion and utilization, biomass conversion, and hydrogen energy conversion and storage, which mainly include:

  1. Hydrothermal, catalytic, and electrochemical CO2 reduction into value-added chemicals;
  2. Hydrothermal conversion of biomass and its derivatives into value-added chemicals;
  3. Liquid organic hydrogen carriers (LOHCs) such as formic acid for hydrogen energy storage and delivery.

个人简历

  1. 2007年本科毕业于南京航空航天大学飞行器环境与生命保障工程专业;
  2. 2012年硕士毕业于同济大学环境科学专业;
  3. 2015年博士毕业于日本东京大学尖端跨学科工程专业;
  4. 2015-2018年先后在日本东北大学超临界流体中心以及日本产业技术综合研究所(AIST)化学过程研究所进行博士后研究;
  5. 2018年3月起全职工作于bat365在线中国官网登录入口;

代表性论著

目前发表SCI论文60余篇,其中一作和通讯作者论文36篇,包括PNAS, ACS Catal., Green Chem., J. Mat. Chem. A., ACS Appl. Mater. Interfaces, J. Phys. Chem. C等催化、环境、和化工领域重要期刊,部分论文列表如下:
  1. He, D.; Wang, X.; Yang, Y.; He, R.; Zhong, H.*; Wang, Y.; Han, B.*; Jin, F.*, Hydrothermal synthesis of long-chain hydrocarbons up to C24 with NaHCO3-assisted stabilizing cobalt. PNAS 2021, 118, e2115059118.
  2. Zhong, H.; Iguchi, M.; Chatterjee, M.; Ishizaka, T.; Kitta, M.; Xu, Q.; Kawanami, H., Interconversion between CO2 and HCOOH under Basic Conditions Catalyzed by PdAu Nanoparticles Supported by Amine-Functionalized Reduced Graphene Oxide as a Dual Catalyst. ACS Catal. 2018, 8, (6), 5355-5362.
  3. Pei, Y.; Cheng, J.; Zhong, H.*; Pi, Z.; Zhao, Y.; Jin, F., Sulfide-oxidation-assisted electrochemical water splitting for H2 production on a bifunctional Cu2S/nickel foam catalyst. Green Chem. 2021, 23, 6975-6983. (Inside Back Cover)
  4. Pei, Y.; Pi, Z.; Zhong, H.*; Cheng, J.; Jin, F., Glycerol oxidation-assisted electrochemical CO2 reduction for the dual production of formate. J. Mater. Chem. A 2022, 10, 1309-1319. (Back Cover)
  5. Zhong, H.; Yao, G.; Cui, X.; Yan, P.; Wang, X.; Jin, F., Selective conversion of carbon dioxide into methane with a 98% yield on an in situ formed Ni nanoparticle catalyst in water. Chem. Eng. J. 2019, 357, 421-427.
  6. Pei, Y.; Wang, C.L.; Zhong, H.*; Jin, F.M., Concurrent Electrolysis under Pressured CO2 for Simultaneous CO2 Reduction and Hazardous SO2 Removal. ACS Sustainable Chem. Eng. 2022, 10, 12670–12678.
  7. Chen, P.; Yang, R.; Pei, Y.; Yang, Y.; Cheng, J.; He, D.; Huang, Q.; Zhong, H.*; Jin, F.*, Hydrothermal synthesis of similar mineral-sourced humic acid from food waste and the role of protein. Sci. Total Environ. 2022, 828, 154440.
  8. Wang, Z.; Pei, Y.; Zhong, H.*; Jin, F., Automatic high-pressure H2 generation up to 40 MPa through HCO3/CO32– enhanced Al-H2O reaction. Int. J. Hydrogen Energy 2022, 47, 18240-18250.
  9. Pei, Y.; Zhong, H.*; Jin, F.*, A brief review of electrocatalytic reduction of CO2—Materials, reaction conditions, and devices. Energy Sci. Eng. 2021, 9, 1021-1032.
  10. Wang, X.; Yang, Y.; Wang, T.; Zhong, H.*; Cheng, J.; Jin, F.*, In situ formed metal oxide/metal interface enhanced C–C coupling in CO2 reduction into CH3COOH over hexagonal closed-packed Cobalt. ACS Sustainable Chem. Eng. 2021, 9, 1203-1212.
  11. Wang, X.; Yang, Y.; Zhong, H.*; Wang, T.; Cheng, J.; Jin, F.*, Molecular H2O promoted catalytic bicarbonate reduction with methanol into formate over Pd0.5Cu0.5/C under mild hydrothermal conditions. Green Chem. 2021, 23, 430-439.
  12. Zhong, H.; Ma, L.; Zhu, Y.; Jin, B.; Wang, T.; Wang, Y.; Jin, F., Hydrothermal conversion of microalgae and its waste residue after biofuel extraction to acetic acid with CuO as solid oxidant. J. Supercrit. Fluids 2020, 157, 104717.
  13. Yao, G.; Guo, Y.; Le, Y.; Jin, B.; He, R.; Zhong, H.*; Jin, F.*, Energy Valorization of Food Waste: Rapid Conversion of Typical PolysaccharideComponents to Formate. Ind. Eng. Chem. Res. 2020, 59, 17069-17075.
  14. Jin, B. B.; Ye, X.; Zhong, H.*; Jin, F. M.*, Light-Driven Hydrogenation of Bicarbonate into Formate over Nano-Pd/TiO2. ACS Sustainable Chem. Eng. 2020, 8, 6798-6805.

  15. Wang, X.; Yang, Y.; Zhong, H.*; He, R.; Cheng, J.; Jin, F.*, In situ formed Raney-Ni/Fe3O4 catalyzed reduction of NaHCO3 into acetate with Fe as reductant in water. Cataly Today 2020, 350, 136-141.

  16. Zhong, H.; Wang, L.; Yang, Y.; He, R.; Jing, Z.; Jin, F., Ni and Zn/ZnO Synergistically Catalyzed Reduction of Bicarbonate into Formate with Water Splitting. ACS Appl. Mater. Interfaces 2019, 11, 42149-42155.

  17. Yang, Y.; Zhong, H.*; He, R.; Wang, X.; Cheng, J.; Yao, G.; Jin, F.*, Synergetic conversion of microalgae and CO2 into value-added chemicals under hydrothermal conditions. Green Chem. 2019, 21, 1247-1252.

  18. Zhong, H.; Jiang, C.; Zhong, X.; Wang, J.; Jin, B.; Yao, G.; Luo, L.; Jin, F., Non-precious metal catalyst, highly efficient deoxygenation of fatty acids to alkanes with in situ hydrogen from water. J. Clean Prod. 2019, 209, 1228-1234.
  19. Ni, Z.; Zhong, H.*; Yang, Y.; Yao, G.; Jin, B.; Jin, F.*, One-step conversion of NaHCO3 into formate and simultaneous synthesis of AlO (OH) from waste Al-can in water. ACS Sustainable Chem. Eng. 2019, 7, 5827-5834.
  20. Zhu, Y.; Yang, Y.; Wang, X.; Zhong, H.*; Jin, F.*, Pd/C‐catalyzed reduction of NaHCO3 into formate with 2‐pyrrolidone under hydrothermal conditions. Energy Science & Engineering 2019, 7, 881-889.
  21. Liu, Y.; Huo, Z.*; Song, Z.; Zhang, C.; Ren, D.; Zhong, H.*; Jin, F.*, Preparing a magnetic activated carbon with expired beverage as carbon source and KOH as activator. J. Taiwan Inst. Chem. Eng. 2019, 96, 575-587.

  22. Zhong, H.; Iguchi, M.; Chatterjee, M.; Himeda, Y.; Xu, Q.; Kawanami, H., Formic Acid‐Based Liquid Organic Hydrogen Carrier System with Heterogeneous Catalysts. Advanced Sustainable Systems 2018, 2, 1700161.

  23. Zhong, H.#; Li, Q.#; Liu, J.; Yao, G.; Wang, J.; Zeng, X.; Huo, Z.; Jin, F., New method for highly efficient conversion of biomass-derived levulinic acid to γ-valerolactone in water without precious metal catalysts. ACS Sustainable Chem. Eng. 2017, 5, (8), 6517-6523.
  24. Zhong, H.; Iguchi, M.; Song, F.-Z.; Chatterjee, M.; Ishizaka, T.; Nagao, I.; Xu, Q.; Kawanami, H., Automatic high-pressure hydrogen generation from formic acid in the presence of nano-Pd heterogeneous catalysts at mild temperatures. Sustainable Energy Fuels 2017, 1, (5), 1049-1055.
  25. Zhong, H.*; Fujii, K.; Nakano, Y., Effect of KHCO3 concentration on electrochemical reduction of CO2 on copper electrode. J. Electrochem. Soc. 2017, 164, (9), F923-F927.
  26. Song, J.; Yang, Y.; Yao, G.; Zhong, H.*; He, R.; Jin, B.; Jing, Z.; Jin, F.*, Highly efficient synthesis of hydrogen storage material of formate from bicarbonate and water with general Zn powder. Ind. Eng. Chem. Res. 2017, 56, (22), 6349-6357.
  27. Le, Y.#; Zhong, H.#; Yang, Y.; He, R.; Yao, G.; Jin, F., Mechanism study of reduction of CO2 into formic acid by in-situ hydrogen produced from water splitting with Zn: Zn/ZnO interface autocatalytic role. J. Energy Chem. 2017, 26, (5), 936-941.
  28. Jiang, C.#; Zhong, H.#; Yao, G.; Duo, J.; Jin, F., One-step water splitting and NaHCO3 reduction into hydrogen storage material of formate with Fe as the reductant under hydrothermal conditions. Int. J. Hydrogen Energy 2017, 42, (27), 17476-17487.
  29. Zhong, H.; Yao, H.; Duo, J.; Yao, G.; Jin, F., Pd/C-catalyzed reduction of NaHCO3 into CH3COOH with water as a hydrogen source. Catal. Today 2016, 274, 28-34.
  30. Zhong, H.; Watanabe, M.; Enomoto, H.; Jin, F.; Kishita, A.; Aida, T. M.; Smith Jr, R. L., Winterization of vegetable oil blends for biodiesel fuels and correlation based on initial saturated fatty acid constituents. Energy & Fuels 2016, 30, (6), 4841-4847.
  31. Zhong, H.; Fujii, K.; Nakano, Y., Electroactive species study in the electrochemical reduction of CO2 in KHCO3 solution at elevated temperature. J. Energy Chem. 2016, 25, (3), 517-522.
  32. Yun, J.#; Yao, G.; Jin, F.; Zhong, H.#; Kishita, A.; Tohji, K.; Enomoto, H.; Wang, L., Low‐temperature and highly efficient conversion of saccharides into formic acid under hydrothermal conditions. AIChE J. 2016, 62, (10), 3657-3663.
  33. Gao, X.; Zhong, H.*; Yao, G.; Guo, W.; Jin, F.*, Hydrothermal conversion of glucose into organic acids with bentonite as a solid-base catalyst. Catal. Today 2016, 274, 49-54.
  34. Zhong, H.; Gao, Y.; Yao, G.; Zeng, X.; Li, Q.; Huo, Z.; Jin, F., Highly efficient water splitting and carbon dioxide reduction into formic acid with iron and copper powder. Chem. Eng. J. 2015, 280, 215-221.
  35. Lyu, L.; Jin, F.*; Zhong, H.*; Chen, H.; Yao, G., A novel approach to reduction of CO2 into methanol by water splitting with aluminum over a copper catalyst. Rsc Adv. 2015, 5, (40), 31450-31453.
  36. Zhong, H.; Fujii, K.; Nakano, Y.; Jin, F., Effect of CO2 bubbling into aqueous solutions used for electrochemical reduction of CO2 for energy conversion and storage. J. Phy. Chem. C 2015, 119, (1), 55-61.

更多论文列表请见Scopus页面