金放鸣 - 上海交通大学 - 环境科学与工程学院

个人简介

1978年2月-1982年1月西北轻工业学院学士 1996年4月-1999年3月日本东北大学大学院工学研究科地球工学专攻博士 1999年4月-2000年3月日本东北大学大学院工学研究科客座研究员 2000年4月-2003年3月日本东北大学大学院工学研究科讲师 (Assistant professor) 2003年4月-2004年3月日本东北大学大学院环境科学研究科讲师 (Assistant professor) 2004年4月-2007年3月日本东北大学大学院环境科学研究科准教授(Associate professor) 2007年3月-2010年10月同济大学环境工程学院教授，教育部长江学者 2010年12月-2011年5月日本东北大学大学院环境科学研究科教授 2011年6月- 至今上海交通大学环境科学与工程学院教授 2007年3月 - 至今日本东北大学大学院环境科学研究科客员教授，Fellow

研究领域

清洁化学转化生物质废弃物及二氧化碳为新生资源和能源及以水热处理有机废弃物和有害有毒物研究。具体的内容包括 1. 水热（-太阳能协同）转化碳水化合物产有机酸; 2. 水热（-太阳能协同）转化高级脂肪酸产长链烷烃 3. 水热转化生物质废弃物、湿垃圾产高附加值产物 4. 生物质还原金属氧化物——新型金属冶炼 5. 塑料废弃物水热资源化 6. 甲酸产氢 7. 金属水热还原CO2产高附加值有机物 8. 生物质（碳水化合物、藻类）水热还原CO2产高附加值有机物 9. 水热-太阳能协同还原CO2产高附加值有机物 10. 塑料废弃物还原CO2 11. 非生物成因有机合成同深海微生物生命过程相互关系 12. 人工石油合成; 13. 水热-电化学协同的非生物成因有机合成; 14. 水热转化有机废弃物为高附加值产品的工业化

近期论文

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Chen, Y.; Yang, Y.; Liu, X.; Jin, F., O2-H2O2 high-efficient co-oxidation of carbohydrate biomass to formic acid via Co3O4/C nanocatalyst. Carbon Neutrality 2024, 3:23. Zhu, P.; Li, J.; Yang, Y.;Zhong, H.; Jin, F., Selective scission of glucose molecule by a Pd-modulated Co-based catalyst for efficient CO2 reduction under mild conditions. Science Bulletin 2024. Tang, Z.; Liu, X.; Yang, Y.; Jin, F., Recent advances in CO2 reduction with renewable reductants under hydrothermal conditions: towards efficient and net carbon benefit CO2 conversion. Chemical Science 2024, 15, 9927-9948. Guo, G.;Jin, F., The cellulose hydrolysis into glucose with carbon-based solid acid catalyst via machine learning, life cycle assessment and bibliometric analysis. Fuel 2024, 362, 130891. Shi, X.; Yang, Y; Ye, X; Zhong, H; Wang C.; Jin, F., Enhancing the Synergistic Effect of Bifunctional Pd-Based Catalyst by Phosphonic Acid for Cellobiose Conversion to Sorbitol. ACS Sustainable Chem. Eng 2024, 12(15), 5991-6002. Li, H.; Yang, Y; Zhong, H; Jin, F., Geochemistry-Inspired One-Pot CO2 Reduction and Pyrite Desulfurization Under Hydrothermal Conditions. ACS Sustainable Chem. Eng 2024, 12(15), 5809–5818. Gu, W.; Pei, Y.; Zhong, H; Jin, F., Thermo-electrocatalytic reduction of potassium bicarbonate to formate on an indium electrode. Chemistry Letters 2024, 53(2), upad029. Zhu, P.; Wang, C.; Zhong, H; Yang, Y;Jin, F., TPromoting nonsymmetric C–C coupling to valuable oxygenates without metal catalysts in alkali aqueous medium. Chemical Communications 2024, 60(6), 682-685. Yang, R.; Chen, P.; Zhong, H; Jin, F., Highly Efficient Base-Catalyzed Valorization of Food Waste into Lactic Acid at Mild Conditions with the Pretreatment Using HCl Recovered from PVC. ACS Sustainable Chem. Eng 2023, 11(45), 16279-16287. Cheng, J.; Armugam, A.; Yang, Y.; Jin, F.; Zhang, Y.; Yan, N., One-Pot Chitin Conversion to High-Activity Antifungal N,N-Dimethyl Chitosan Oligosaccharides. ChemSusChem 2023, 16, e202300591. (Front Cover) Pei, Y.; Gu, W.; Cheng, S.; Xiao, S.; Wang, C.; Yang, Y.; Zhong, H.; Jin, F., Thermo-Electrochemically Induced Dynamic Snδ+/Sn Interface for Direct Bicarbonate Reduction to Formate. ACS Catal. 2023, 13, 12082-12091. Yan, W.; Guan, Q.; Jin, F., Catalytic conversion of cellulosic biomass to harvest high-valued organic acids. iScience 2023, 107933. Lu, L.; Ji, X.; Wang, X.; Jin, F.; Chen, X., Catalytic Conversion of Chitin Biomass to 5-Hydroxymethylfurfural in Lithium Bromide Molten Salt Hydrates. Ind. Eng. Chem. Res. 2023, 62, 11248-11257. Yang, Y.; Zhong, H.; Cheng, J.; Hu, Y. H.; Smith, R. L.; Jin, F., Carbohydrates generated via hot water as catalyst for CO2 reduction reaction. Next Energy 2023, 1, 100037. Xu, J.; Cheng, J.; He, R. T.; Lu, J. Q.; Wang, C. L.; Zhong, H.; Jin, F. M., Revealing the GHG reduction potential of emerging biomass-based CO2 utilization with an iron cycle system. Front. Environ. Sci. Eng. 2023, 17, 127. Lu, L.; Ji, X. L.; Wang, X. W.; Jin, F. M.; Chen, X., Catalytic Conversion of Chitin Biomass to 5-Hydroxymethylfurfural in Lithium Bromide Molten Salt Hydrates. Ind. Eng. Chem. Res. 2023, in press, DOI: 10.1021/acs.iecr.3c01100. Chen, Y. J.; Yang, Y.; Liu, X.; Shi, X. Y.; Wang, C. L.; Zhong, H.; Jin, F. M., Sustainable production of formic acid and acetic acid from biomass. Mol. Catal. 2023, 545, 113199. Cheng, S.; Zhong, H.; Jin, F. M., A mini review of electrocatalytic upgrading of carbohydrate biomass-System, path, and optimization. Energy Sci. Eng. 2023, in press, DOI: 10.1002/ese3.1487. Ye, X.; Shi, X. Y.; Li, J. Y.; Jin, B. B.; Cheng, J.; Ren, Z. H.; Zhong, H.; Chen, L. W.; Liu, X.; Jin, F. M.; Wang, T. F., Fabrication of Mg-Al hydrotalcite/carbon nanotubes hybrid base catalysts for efficient production of fructose from glucose. Chem. Eng. J. 2022, 440, 135844. Wu, L.; Yang, Y.; Cheng, J.; Shi, X.; Zhong, H.; Jin, F., Highly Efficient Conversion of Carbohydrates into Formic Acid with a Heterogeneous MgO Catalyst at Near-Ambient Temperatures. ACS Sustainable Chem. Eng. 2022, 10, 15423–15436. Yuhou Pei, Chunling Wang, Heng Zhong, Fangming Jin. Concurrent Electrolysis under Pressured CO2 for Simultaneous CO2 Reduction and Hazardous SO2 Removal. ACS Sustainable Chem. Eng. 2022, 10, 12670–12678. Chen, P. F.; Yang, R. J.; Pei, Y. H.; Yang, Y.; Cheng, J.; He, D. P.; Huang, Q.; Zhong, H.; Jin, F. M., Hydrothermal synthesis of similar mineral-sourced humic acid from food waste and the role of protein. Sci. Total Environ. 2022, 828, 154440. Yan, W.B.; Jin, B.B.; Cheng, J.; Shi, X.Y.; Zhong, H.; Jin, F.M., Ru/ZrO2 as a Facile and Efficient Heterogeneous Catalyst for the Catalytic Hydrogenation of Bicarbonate Using Biodiesel-Waste Glycerol as a Hydrogen Donor. ACS Sustainable Chem. Eng. 2022, 10, 5374–5383. 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) Ye, X.; Shi, X.; Zhong, H.; Wang, T.; Duo, J.; Jin, B.; Jin, F., Photothermal strategy toward highly efficient conversion of glucose into lactic acid at low-temperatures over hybrid multifunctional catalyst multi-walled carbon nanotubes/layered double hydroxides. Green Chem. 2022, 24, 813-822. Sun, H. L.; Hu, L. F.; Li, Z. Y.; Lang, J. Y.; Wang, C. L.; Liu, X. H.; He, Y. H.; Jin, F. M., Ultra-stable Molecular Interface SiW12Ox/TiO2 Catalyst Derived from Keggin-type Polyoxometalates for Photocatalytic Conversion of Methane to Oxygenates. ChemCatChem 2022, 14, e202200001. Wang, Z. Y.; Pei, Y. H.; Zhong, H.; Jin, F. M., Automatic high-pressure H2 generation up to 40 MPa through HCO3-/CO32- reaction. Int. J. Hydrogen Energy 2022, 47, 18240-18250. Xu, H. X.; Ye, X.; Shi, X. Y.; Zhong, H.; He, D. P.; Jin, B. B.; Jin, F. M., ZnO as a simple and facile catalyst for acid-base coordination transformation of biomass-based monosaccharides into lactic acid. Mol. Catal. 2022, 522, 112241. Jin, B. B.; Ye, X.; Zhong, H.; Jin, F. M.; Hu, Y. H., Enhanced photocatalytic CO2 hydrogenation with wide-spectrum utilization over black TiO2 supported catalyst. Chin. Chem. Lett. 2022, 33, 812-816. Liu, X.; Zhong, H.; Wang, C. L.; He, D. P.; Jin, F. M., CO2 reduction into formic acid under hydrothermal conditions: A mini review. Energy Sci. Eng. 2022, 10, 1601-1613. Wu, L. X.; Yang, Y.; Cheng, J.; Wang, X. G.; Huang, Q.; Jin, F. M., Hydrothermal water enabling one-pot transformation of amines to alcohols via supported Pd catalysts. React. Chem. Eng. 2022, 7, 839-843. Wang, J. Y.; Zhang, L.; Jin, F. M.; Chen, X., Palladium nanoparticles on chitin-derived nitrogen-doped carbon materials for carbon dioxide hydrogenation into formic acid. RSC Adv. 2022, 12, 33859-33869. 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. 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. Pei, Y.; Zhong, H.; Jin, F., A brief review of electrocatalytic reduction of CO2 — Materials, reaction conditions, and devices. Energy Sci. Eng. 2021, 9, 1012-1032. Deng, J.; Wang, L.; Jin, F.; Hu, Y. H., A simple approach making acetylene black electrocatalytically active for flexible rechargeable zinc–air batteries. J. Mater. Chem. A 2021, 9, 11145-11150. Li, J.; Zhu, P.; Zhong, H.; Yang, Y.; Cheng, J.; Wang, Y.; Jin, F., Hydrothermal Reduction of NaHCO3 into Formate with Protein-Based Biomass over Pd/γ-Al2O3 Nanocatalysts. ACS Sust. Chem. Eng. 2021, 9, 4791-4800. Shi, X.; Ye, X.; Zhong, H.; Wang, T.; Jin, F., Sustainable nitrogen-containing chemicals and materials from natural marine resources chitin and microalgae. Mol. Catal. 2021, 505, 111517. Ye, X.; Shi, X.; Jin, B.; Zhong, H.; Jin, F.; Wang, T., Natural mineral bentonite as catalyst for efficient isomerization of biomass-derived glucose to fructose in water.. Sci. Total Environ. 2021, 778, 146276. 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. 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. Sun, Z. X.; Wang, Y. W.; Lang, J. Y.; Yang, M. F.; Jin, F. M.; Hu, Y. H., 1T/1T '-dominated WSe2 with stabilized oxygen dopants for efficient and durable hydrogen evolution. J. Mater. Chem. A 2021, 9, 13490-13495. Ma, Y. L.; Jin, F. M.; Hu, Y. H., Bifunctional electrocatalysts for oxygen reduction and oxygen evolution: a theoretical study on 2D metallic WO2-supported single atom (Fe, Co, or Ni) catalysts. Phys. Chem. Chem. Phys. 2021, 23, 13687-13695. Wu, X. C.; Lang, J. Y.; Sun, Z. X.; Jin, F. M.; Hu, Y. H., Photocatalytic conversion of carbon monoxide: from pollutant removal to fuel production. Appl. Catal. B: Environ. 2021, 29, 120312. Deng, J.; Wang, L.; Jin, F. M.; Hu, Y. H., Metal-free surface-microporous graphene electrocatalysts from CO2 for rechargeable all-solid-state zinc-air batteries. J. Mater. Chem. A 2021, 9, 10081-10087.