侯阳
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侯阳 研究员,博士生导师,国家自然科学基金委优秀青年基金获得者,现任浙大宁波理工学院生物与化学工程学院院长,英国皇家化学会会士(FRSC),浙江省高层次人才计划入选者(创新长期),浙江省专家,浙江省“杰出青年”基金获得者,连续两年入选科睿唯安(Clarivate Analytics)'全球高被引科学家'(2020-2021),侯德榜化工科学技术青年奖(1/1),中国石油和化学工业联合会“青年科技突出贡献奖”(1/1),中国化工学会科学技术奖(1/4),中国产学研合作创新奖(1/1),全国优秀博士学位论文提名奖获得者,辽宁省优秀博士学位论文,生物质化工教育部重点实验室固定成员,浙江省高校高水平创新团队核心成员,浙江省领军型创新创业团队核心成员,浙江省科技厅项目评审专家,教育部青年项目通讯评审专家,国家基金委联合重点项目会评专家等。曾先后在美国加州大学河滨分校、美国威斯康星大学密尔沃基分校和德国德累斯顿工业大学从事博士后工作。研究内容主要包括太阳能驱动光电化学水裂解制氢气和氧气、环境污染物控制及资源化、能量存储与转换(锂电池和超级电容器)器件。\r\rEducation\r09/2006 ~ 07/2011 Doctor of Philosophy in Environmental Engineering, School of Environmental Science and Technology, Dalian University of Technology, China\r09/2002 ~ 07/2006 Bachelor of Engineering in Environmental Engineering, School of Environmental and Chemical Engineering, Dalian Jiaotong University, China\r\rResearch Experiences\r03/2017 ~ Present Professor College of Chemical and Biological Engineering, Zhejiang University, China\r03/2015 ~ 02/2017 Postdoctoral Research Associate Center for Advancing Electronics Dresden, Technische Universität Dresden, Germany\r02/2013 ~ 02/2015 Postdoctoral Research Associate Department of Mechanical Engineering, University of Wisconsin-Milwaukee, United States\r07/2011 ~ 02/2013 Postdoctoral Research Associate Department of Chemistry, University of California, Riverside, United States\r10/2009 ~ 05/2010 Research Assistant Department of Chemical and Biomolecular Engineering, Hong Kong University of Science and Technology, Hong Kong研究领域
"""""可再生能源与绿色氢能\r锂离子电池和超级电容器材料\r二氧化碳转化与资源化利用及其新型水系电池\r能源纳米材料及新型功能复合材料\r环境化工与环境友好型催化"近期论文
Wang, R.;# Wang, X. Y.;# Weng, W. J.; Yao, Y.; Kidkhuntod, P.; Wang, C. C.; Hou, Y.;* Guo, J.* Proton/Electron-Donors Enhancing Electrocatalytic Activity of Supported Conjugated Microporous Polymers for CO2 Reduction. Angew. Chem. Int. Ed. 2021, xx, xxx-xxx. (影响因子: 12.257)\r\rDai, Q. Z.; Wang, L.; Wang, K. X.; Sang, X. H.; Li, Z. J.; Yang, B.; Chen, J. M.; Lei, L. C.; Dai, L. M.;* Hou, Y.* Accelerated water dissociation kinetics by electron-enriched cobalt sites for efficient alkaline hydrogen evolution. Adv. Funct. Mater. 2021, xx, xxx-xxx. (影响因子: 15.621)\r\rKong, Y.; Li, Y.; Sang, X. H.; Yang, B.; Li, Z. J.; Zheng, S. X.; Zhang, Q. H.; Yao, S. Y.; Yang, X. X.; Lei, L. C.; Zhou, S. D.;* Wu, G.;* Hou, Y.* Atomically Dispersed Zinc(I) Active Sites to Accelerate Nitrogen Reduction Kinetics for Ammonia Electrosynthesis. Adv. Mater. 2021, xx, xxx-xxx. (影响因子: 25.809)\r\rChen, J. Y.; Li, Z. J.; Wang, X. Y.; Sang, X. H.; Zheng, S. X.; Liu, S. J.; Yang, B.; Zhang, Q. H.; Lei, L. C.; Dai, L. M.; Hou, Y.* Promoting CO2 Electroreduction Kinetics on Atomically Dispersed Monovalent Zn(I) Sites by Rationally Engineering Proton-feeding Centers. Angew. Chem. Int. Ed. 2021, xx, xxx-xxx. (影响因子: 12.257)图片1.jpg\r\rWang, X. Y.; Feng, S. H.; Lu, W. C.; Zhao, Y. J.; Zheng, S X.; Zheng, W. Z.; Sang, X. H.; Zheng, L. R.; Xie, Y.; Li, Z. J.; Yang, B.; Lei, L. C.; Wang, S. B.; Hou, Y.* A new strategy for accelerating dynamic proton transfer of electrochemical CO2 reduction at high current densities. Adv. Funct. Mater. 2021, xx, xxx-xxx. (影响因子: 15.621)\r\rZhang, Y. K; Wang, X. Y.; Zheng, S X.; Yang, B.; Li, Z. J.; Lu, J. G.; Zhang, Q. H.; Adli, N. M.; Lei, L. C.; Wu, G.; Hou, Y.* Hierarchical cross-linked carbon aerogels with transition metal-nitrogen sites for highly efficient industrial-level CO2 electroreduction. Adv. Funct. Mater. 2021, xx, xxx-xxx. (影响因子: 15.621)\r\rLi, Z. J.; Zeng, Q.; Ye, Z. P.; Zheng, W. Z.; Sang, X. H.; Dong, C. L.; Yang, B.; Pardiwala, B.; Lu, J. G.; Lei, L. C.; Wu, G.;* Hou, Y.* An Integrated Bioelectrochemical System Coupled CO2 Electroreduction Device based on Atomically Dispersed Iron Electrocatalyst. Nano Energy, 2021, 87, 106187. (影响因子: 15.548)\r\rLiu, X.; Sun, Y. J.; Tong, Y.; Wang, X. Y.; Zheng, J. F.; Wu, Y. J.; Li, H. Y.;* Niu, L.; Hou, Y.* Exploration in materials, electrolyte and performance towards metal ion (Li, Na, K, Zn and Mg)-based hybrid Capacitors: A review. Nano Energy, 2021, 86, 106070. (影响因子: 15.548) (Invited Review)\r\rWang, X. Y.; Sang, X. H.; Dong, C. L.; Yao, S. Y.; Shuai, L.; Lu, J. G.; Yang, B.; Li, Z. J.; Lei, L. C.; Qiu, M.;* Dai, L. M.;* Hou, Y.* Proton capture strategy for enhancing electrochemical CO2 reduction on atomically dispersed metal-nitrogen active sites. Angew. Chem. Int. Ed. 2021, 60, 11959-11965. (影响因子: 12.257)\r\rLi, Y.; Li, J. W.; Huang, J. H.; Chen, J. X.; Kong, Y.; Yang, B.; Li, Z. J.; Lei, L. C.; Chai, G. L.; Wen, Z. H.;* Dai, L. M.;* Hou, Y.* Boosting Electroreduction Kinetics of Nitrogen to Ammonia via Tuning Electron Distribution of Single-atomic Iron Sites. Angew. Chem. Int. Ed. 2021, 60, 9078-9085. (VIP paper) (影响因子: 12.257)\r\rZheng, W. Z.; Wang, Y.; Shuai, L.; Wang, X. Y.; He, F.;* Lei, L. C.; Li, Z. J.; Yang, B.; Lei, L. C.; Yuan, C.; Qiu, M.;* Hou, Y.;* Feng X. L. Highly boosted reaction kinetics in carbon dioxide electroreduction by surface-introduced electronegative dopants. Adv. Funct. Mater. 2021, 31, 2008146. (影响因子: 15.621)\r\rWang, G. X.; Chen, J. X.; Ding, Y. C.; Cai P. W.; Yi, L. C.; Li, Y.; Tu, C. Y.; Hou, Y.;* Wen, Z. H.;* Dai, L. M.* Electrocatalysis for CO2 conversion: from fundamentals to value-added products. Chem. Soc. Rev. 2021, 50, 4993-5061. (影响因子: 42.846) Invited Review\r\rCheng, F. P; Li, Z. J.;* Wang, L.; Yang, B.; Lu, J. G.; Lei, L. C.; Ma, T. Y.;* Hou, Y.* In situ Identification of Electrocatalytic Water Oxidation Behavior of Nickel-Based Metal-Organic Framework Nanoarray. Mater. Horiz., 2021, 8, 556-564. (影响因子: 14.356)\r\rWang, X. Y.; Wang, Y.; Sang, X. H.; Zheng, W. H.; Zhang, S. H.;* Ling, S.; Yang, B.; Li, Z. J.; Chen, J. M.; Lei, L. C.; Adli, N. M.; Leung, M. K. H.; Qiu, M.;* Wu, G.;* Hou, Y.* Dynamic Activation of Adsorped Intermediates via Axial Traction for the Promoted Electrochemical CO2 Reduction. Angew. Chem. Int. Ed. 2021, 60, 4192-4198. (影响因子: 12.257)\r\rLi, Z. J.;# Cao, A.;# Zheng, Q.; Fu, Y. Y.; Wang, T. T.; Arul, K. T.; Chen, J. L.; Yang, B.; Adli, N. M.; Lei, L. C.; Dong, C. L.; Xiao, J. P.;* Wu, G.;* Hou, Y.* Elucidating the Synergistic Effect of Dopants and Vacancies on Promoted Selectivity for CO2 Electroreduction to Formate. Adv. Mater. 2021, 33, 2005113. (影响因子: 25.809)\r\rWang, H.; Li, Z. J.; Li, Y.; Yang, B.; Chen, J.; Lei, L. C.; Wang, S. B.; Hou, Y.* An Exfoliated Iron Phosphorus Trisulfide Nanosheet with Rich Sulfur Vacancy for Efficient Dinitrogen Fixation and Zn-N2 battery. Nano Energy, 2021, 81, 105613. (影响因子: 15.548)\r\rWang, K. X.; Wang, X. Y.; Li, Z. J.; Yang, B.; Ling, M.; Gao, X.; Lu, J. G.; Shi, Q. R.; Lei, L. C.; Wu, G.;* Hou, Y.* Designing 3d dual transition metal electrocatalysts for oxygen evolution reaction in alkaline electrolyte: beyond oxides. Nano Energy, 2020, 77, 105162. (影响因子: 15.548) Invited Review\r\rWei, F. C.;† Wang, T. T.;† Jiang, X. L.; Ai, Y.; Cui, A. Y.; Cui, J.; Fu, J. W.; Cheng, J. G.; Lei, L. C.; Hou, Y.;* Liu, S. H.* Controllably Engineering Mesoporous Surface and Dimensionality of SnO2 towards High-Performance CO2 Electroreduction. Adv. Funct. Mater. 2020, 30, 2002092. (影响因子: 15.621)\r\rWang, T. T.; Sang, X. H.; Zheng, W. Z.; Yang, B.;* Yao, S. Y.; Lei, C. J.; Li, Z. J.; He, Q. G.; Lu, J. G.; Lei, L. C.; Dai, L. M.;* Hou, Y.* Gas Diffusion Strategy for Inserting Atomic Iron Sites into Graphitized Carbon Supports for Unusually High Efficient CO2 Electroreduction and High-Performance Zn-CO2 Batteries. Adv. Mater. 2020, 32, 2002430. (影响因子: 25.809)\r\rLei, C. J.;† Zheng, Q.;† Cheng, F. P.; Hou, Y.;* Yang, B.; Li, Z. J.; Wen, Z. H.; Lei, L. C.; Chai, G. L.;* Feng X. L.* High-Performance Metal-Free Nanosheets Array Electrocatalyst for Oxygen Evolution Reaction in Acid. Adv. Funct. Mater. 2020, 30, 2003000. (影响因子: 15.621)标签: 浙江大学 化学工程与生物工程学院
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