纪红兵 - 中山大学

个人简介

教育经历 1992.9—1997.3：华南理工大学化工学院，工业催化专业，获工学博士学位 1988.9—1992.6：华南理工大学化学工程系，有机化工专业，获工学学士学位工作经历 2007.05—至今：中山大学化学与化学工程学院，教授 1997.07—2009.04：华南理工大学化工与能源学院，讲师，副教授，教授中国化学会绿色化学专业委员会委员委员中国化学会催化专业委员会委员中国化工学会精细化工专业委员会副主任委员《Journal of Chemical Technology and Biotechnology》编委、《Chinese Journal of Chemical Engineering》编委、核心期刊《化工进展》编委、《精细化工》副主任委员、《天然气化工》编委、《工业催化》副主任委员、《煤炭与化工》编委、《广东安全生产》编委中山大学精细化工研究院院长中山大学惠州研究院院长大亚湾石油化工研究院院长广东省石化中下游产业技术创新联盟理事长

研究领域

环境友好的催化过程(多/均相催化、仿生催化和环境催化) 精细化工、天然精细化学品的分离与合成绿色化工过程化工园区管理

近期论文

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Biomimetic Baeyer–Villiger oxidation of ketones with SnO2 as cocatalyst, features in activating carbonyl group of substrates, Chemical Engineering Journal, 241, 138-144 (2014). Comparison of TiO2 Degussa P25 with anatase and rutile crystalline phases for methane combustion, Chemical Engineering Journal, 243, 254-264 (2014). Highly efficient synthesis of cyclic carbonates from epoxides catalyzed by salen aluminum complexes with built-in “CO2 capture” capability under mild conditions, Green Chemistry, 16(3), 1496-1506 (2014). Inclusive separation of acetophenone from petrochemical by-product with 1-phenylethanol via noncovalent interactions, AIChE Journal, 60(8), 2962-2975 (2014). Monolith-like TiO2 nanotube array supported Pt catalyst for HCHO removal under mild conditions, Industrial & Engineering Chemistry Research, 53 (18), 7629–7636 (2014). New bi-functional zinc catalysts based on robust and easy-to-handle N-chelating ligands for the synthesis of cyclic carbonates from epoxides and CO2 under mild conditions, Green Chemistry, 16 (9), 4179-4189 (2014). Anodic TiO2 nanotube array supported nickel-noble metal bimetallic catalysts for activation of CH4 and CO2 to syngas, International Journal of Hydrogen Energy, 39(28), 16252-16261 (2014). Photoelectrochemical hydrogen production from biomass derivatives and water, Chemical Society Reviews, 43(22), 7581-7593 (2014). Strong metal-support interaction in Pt/TiO2 induced by mild HCHO and NaBH4 solution reduction and its effect on catalytic toluene combustion, Industrial & Engineering Chemistry Research, 53(41), 15879-15888 (2014). 2-Hydroxypropyl-β-cyclodextrin polymer as a mimetic enzyme mediated synthesis of benzaldehyde in water, ACS Sustainable Chemistry & Engineering, 1(9), 1172–1179 (2013). Synthesis of dimethyl ether from CO2 and H2 using a Cu-Fe-Zr/HZSM-5 catalyst system, Industrial & Engineering Chemistry Research, 52, 16648-16655 (2013). Zebao Rui, Hongbing Ji*, Thermodynamic analysis of hydrogen generation from methanol- formic acid-steam autothermal system, Energy & Fuels, 27, 5449-5458 (2013). Dual functional adsorption of benzoic acid from wastewater by biological-based chitosan grafted β-cyclodextrin, Chemical Engineering Journal, 203, 309-318 (2012). A simple method to decorate TiO2 nanotube arrays with controllable quantity of metal nanoparticles, Chemical Engineering Journal, 179(1), 363-371 (2012). β-Cyclodextrin inclusive interaction driven separation of organic compounds. AIChE Journal, 57(9), 2341–2352 (2011). -Cyclodextrin-promoted synthesis of 2-phenylbenzimidazole in water using air as an oxidant. Chemical Engineering Journal, 167(1), 349-354 (2011). Modeling and analysis of ceramic-carbonate dual-phase membrane reactor for carbon dioxide reforming with methane. International Journal of Hydrogen Energy, 36(14), 8292-8300 (2011). Alkaline hydrolysis of cinnamaldehyde to benzaldehyde in the presence of β-cyclodextrin. Hongyan Chen, Hongbing Ji*. AIChE Journal, 56(2), 466-476 (2010). Biomimetic kinetics and mechanism of cyclohexene epoxidation catalyzed by metalloporphyrins. Xiantai Zhou and Hongbing Ji*. Chemical Engineering Journal, 156(2), 411-417 (2010).