北京化工大学硕博留学生导师简介
Brief Introduction of Professor of BUCT
Name 姓名 | Jing HE | Gender 性别 | Female | |||
College 学院 | Chemistry | |||||
Highest degree 最高学历 | PhD | Professional Title 职称 | Professor | |||
Discipline/Major 专业 | Physical Chemistry, Chemistry Engineering | |||||
Research Area/Direction 招生研究方向 | Heterogeneous Catalysis | |||||
Office Phone 办公电话 | Cell Phone 手机号码 | |||||
邮箱 | hejing@buct.edu.cn | |||||
Research Topics(no more than 100 words)研究方向 | ||||||
1. Asymmetric Catalysis 2. Catalytic Conversion of Biomass 3. Catalytic Conversion of C1 Molecules 4. In-situ Techniques for Catalyst Characterization | ||||||
Education Background 教育背景 | ||||||
1995.09 ~ 1999.04: Ph.D., Beijing University of Chemical Technology (BUCT), China 1988.09 ~ 1991.07: M.Sc., Peking University, China 1984.09 ~ 1988.07: B.Sc., Peking University (Beijing University), China | ||||||
Work Experience 工作经历 | ||||||
Professional 1991.08 ~ Beijing University of Chemical Technology Academic visiting 2006.07 ~ 2007.01: Senior academic visitor, Max-Planck Institut für Kohlenforschung, Germany 2003.04 ~ 2003.09: Academic visitor, University of Oxford, UK 1996.07 ~ 1997.01: Academic visitor, The University of New South Wales, Australia |
Publications(no more than 10 representative publications) 发表文章 |
1. A gradient reduction strategy to produce defects-rich nano-twin Cu particles for targeting activation of carbon-carbon or carbon-oxygen in furfural conversion. J. Catal.2020, 389, 78-86. 2. Size effects of Ni particles on the cleavage of C−H and C−C bonds toward hydrogen production from cellulose. ACS Appl. Energy Mater.2020, 3, 7048-7057 3. Selective activation of C−OH, C−O−C, or C=C in furfuryl alcohol by engineered Pt sites supported on layered double oxides. ACS Catal.2020, 10, 8032-8041 4. Mg-vacancy-induced Ni-vacancy clusters: highly efficient hydrogen production from cellulose. J. Mater. Chem. A 2020, 8, 14697-14705 5. Insights into the multiple synergies of supports in the selective oxidation of glycerol to dihydroxyacetone: layered double hydroxide supported Au. ACS Catal. 2020, 10, 12437-12453 6. Atomic Pt-catalyzed heterogeneous anti-markovnikov C-N formation: Pt10 activating N-H for Pt1δ+-activated C=C attack, J. Am. Chem. Soc. 2020, 142, 9017-9027 7. Cu-Pd pair facilitated simultaneous activation of ethanol and CO, J. Catal. 2020, 386: 81-93 8. Ni0/Niδ+ synergistic catalysis on a nanosized Ni surface for simultaneous formation of C−C and C−N bonds, ACS Catal. 2019, 9: 11438-11446 9. Ga-promoted CO insertion and C–C coupling on Co catalysts for the synthesis of ethanol and higher alcohols from syngas, J. Catal. 2017, 356: 157-164 10.Highly enantioselective and efficient asymmetric epoxidation catalysts: inorganic nanosheets modified with -amino acids as ligands, Angew. Chem. Int. Ed., 2011, 50: 9171-9176 |