个人简介
郑州大学化学学院(199607-现在)
University of Sussex博士后(200409-200509)
香港中文大学访问学者(200401-200407)
荣誉称号及获奖
教育部新世纪优秀人才(2010);河南省优秀教师(2012);宝钢教育优秀教师奖(2013);河南省高等学校中青年骨干教师(2006);河南省教育厅学术技术带头人(2005);河南省优秀硕士论文指导教师(2020 & 2013 & 2012);郑州大学“三育人”优秀个人(2012 & 2008);郑州大学第二届讲课大赛二等奖(2007)。
研究领域
设计、构筑特定的MOFs、HOFs以及COFs,揭示其在传感、能源等领域的应用前景。
近期论文
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B.-X. Han, Y.-F. Jiang, X.-R. Sun, Z.-F. Li,G. Li*. Proton conductive N-heterocyclic metal–organic frameworks.Coordin. Chem. Rev.,2021,432, 213754.
R.-L. Liu, D.-Y. Wang, J.-R. Shi,G. Li*. Proton conductive metal sulfonate frameworks.Coordin. Chem. Rev.,2021,431, 213747.
Z.-C. Guo, Z.-Q. Shi, X.-Y. Wang, Z.-F. Li,G. Li,* Proton conductive covalent organic frameworks.Coordin. Chem. Rev.,2020,422, 213465.
X.-X. Xie, Y.-C. Yang, B.-H. Dou, Z.-F. Li,G. Li*. Proton conductive carboxylate-based metal-organic frameworks.Coordin. Chem. Rev.,2020,403, 213100.
Y. Qin, T.-L. Gao, W.-P. Xie, Z.-F. Li,G. Li*. Ultrahigh proton conduction in two highly stable ferrocenyl carboxylate frameworks.ACS Appl. Mater. Interfaces,2019,11, 31018−31027.
R.-L. Liu, Y.-R. Liu, S.-H. Yu, C.-L. Yang, Z.-F. Li,G. Li*. A highly proton conductive 3D ionic cadmium-organic framework for ammonia and amines impedance sensing.ACS Appl. Mater. Interfaces,2019,11, 1713-1722.
X. Liang, B. Li, M.-H. Wang, J. Wang, R.-L. Liu,G. Li*. Effective approach to promoting the proton conductivity of metal−organic frameworks by exposure to aqua−ammonia vapor.ACS Appl. Mater. Interfaces,2017,9, 25082–25086.
R. L. Liu,Z.-Q. Shi, X.-Y. Wang, Z.-F. Li,G. Li*.Two highly stable proton conductive cobalt(II)-organic frameworks as impedance sensors for formic acid.Chem. - Eur. J.,2019, 25, 14108 – 14116.
Z.-B. Sun, S.-H. Yu, L.-L. Zhao,G. Li*. A highly stable two-dimensional copper(II)-organic framework for proton conduction and ammonia impedance sensing.Chem. - Eur. J.,2018, 24, 10829– 10839.
X. Chen,G. Li*. Proton conductive Zr-MOFs.Inorg. Chem. Front.,2020,7, 3765-3784.
Y. Qin, X. Wang, W. Xie, Z. Li, andG. Li*. Structural effect on proton conduction in two highly stable disubstituted ferrocenyl carboxylate frameworks.Inorg. Chem.,2020,59, 10243–10252.
X.-X. Xie, Z.-H. Zhang, J. Zhang, L.-F. Hou, Z.-F. Li,G. Li*. Impressive proton conductivities of two highly stable metal-organic frameworks constructed by substituted imidazoledicarboxylates.Inorg. Chem.,2019,58, 5173−5182.
K.-M. Guo, L.-L. Zhao, S.-H. Yu, W.-Y. Zhou, Z.-F. Li,G. Li*. A water-stable proton conductive barium(II)-organic framework for ammonia sensing at high humidity.Inorg. Chem.,2018,57, 7104-7112.
R.-L. Liu, L.-L. Zhao, W. Dai, C.-L. Yang, X. Liang,G. Li*. A comparative investigation on proton conductivities for two metal-organic frameworks under water and aqua-ammonia vapors.Inorg. Chem.,2018,57, 1474–1482.
R.-L. Liu, L.-L. Zhao, S.-H. Yu, X. Liang, Z.-F. Li,G. Li*.Enhancing proton conductivity of a 3D metal−organic framework by attaching guest NH3molecules.Inorg. Chem.,2018,57, 11560−11568.