美高梅(59599aa)官方网站-Best App Store
Chinese

Professor

邱建丁

2023-09-04

美高梅(59599aa)官方网站-Best App Store

Name: Jian-Ding QIU

Gender: Male

Job title: Professor

Email Address: jdqiu@ncu.edu.cn

Education and Work Experience

2005.01~presentSchool of Chemistry and Chemical Engineering, Nanchang University, Professor, PhD supervisor

2009.02~2010.03Hokkaido UniversityPostdoctor

2004.09~2006.07Nanjing UniversityPostdoctor

2001.09~2004.06Sun Yat-sen UniversityPhD

1999.09~2001.06China University of GeosciencesMaster

1992.09~1996.07Nanchang UniversityBachelor

Teaching

He has taught undergraduate and postgraduate courses such as Analytical Chemistry, Instrumental Analysis, Nanobiomaterials Science, Environmental Nanoscience and Technology, guided students National Innovation and Entrepreneurship Training Program for College Students, and guided postgraduates to win several Outstanding Doctoral/Master's Degree Theses of Jiangxi Province.

Research fields

Porous Functional Materials, Environmental Analytical Chemistry

Research projects

  1. The National Natural Science Foundation of China, 22036003, New techniques/methods for detection of heavy metals and organic pollutants in complex environmental media, Principal Investigator.

  2. The National Natural Science Foundation of China, 21976077, Auxiliary ligand regulation and construction of lanthanide coordination polymer ratio fluorescence probes for the detection of heavy metal ions, Principal Investigator.

  3. The National Natural Science Foundation of China, 21675078, Investigation of the catalytic effects of two dimensional nanomaterials on the formation of metal complex of macrocyclic compounds as well as their applications in heavy metal ion sensing, Principal Investigator.

  4. The National Natural Science Foundation of China, 21265017, New methods studying for determination of protein kinase activity based on the interactions of nanointerface with biomolecules, Principal Investigator.

  5. The National Natural Science Foundation of China, 21175064, Prediction of Tau post-translational modification sites and modification mechanism study, Principal Investigator.

  6. The National Natural Science Foundation of China, 21163014, Research on controlled assembly of biomacromolecules/nanomaterials and their applications in molecular recognition and cell imaging, Principal Investigator.

  7. The National Natural Science Foundation of China, 20865003, Construction and application of the intelligent nanobiosensor interface with special wettability, Principal Investigator.

  8. The National Natural Science Foundation of China, 20605010, Study on the relationship between structure, function and evolution of protein based on wavelet nonlinear support vector machine and its medical application, Principal Investigator.

  9. The New Century Excellent Talents Support Program of Ministry of Education, NCET-11-1002, Bioanalytical chemistry, Principal Investigator.

  10. The Program for Major Academic and Technical Leaders of Jiangxi Province, 20123BCB22003, Research on new methods and techniques for rapid identification and detection of pesticide residues, Principal Investigator.

Awards and Honors

  1. Natural Science Award of Jiangxi Province (second class), Prediction and information mining of protein posttranslational modification, 2021, Ranking first.

  2. Natural Science Award of Jiangxi Province (second class), Electrocatalysis and analytical chemistry of functionalized graphene, 2018, Ranking first.

  3. Editorial Board Member for Scientific Reports

  4. New Century Excellent Talents of Ministry of Education

  5. Jiangxi Provincial Talents Project

  6. Honorary Vice Chairman of Jiangxi Chemical Engineering Society

Representative papers and patents

  1. W.R. Cui, C.R. Zhang, W. Jiang, F.F. Li, R.P. Liang, J. Liu, J.D. Qiu*. Regenerable and stable sp2 carbon-conjugated covalent organic frameworks for selective detection and extraction of uranium, Nature Communications, 2020, 11, 436.

  2. W.R. Cui, F.F. Li, R.H. Xu, C.R. Zhang, X.R. Chen, R.H. Yan, R.P. Liang, J.D. Qiu*. Regenerable covalent organic frameworks for photo-enhanced uranium adsorption from seawater, Angewandte Chemie International Edition, 2020, 59, 17684-17690.

  3. Y. Wang, R.P. Liang, J.D. Qiu*. Nanoceria-templated metal organic frameworks with oxidase-mimicking activity boosted by hexavalent chromium, Analytical Chemistry, 2020, 92(2), 2339-2346.

  4. Y.J. Li, W.R. Cui, Q.Q. Jiang, Q. Wu, R.P. Liang, Q.X. Luo, J.D. Qiu*. A general design approach toward covalent organic frameworks for highly efficient electrochemiluminescence, Nature Communications, 2021, 12, 4735.

  5. C.R. Zhang, W.R. Cui, R.H. Xu, X.R. Chen, W. Jiang, Y.D. Wu, R.H. Yan, R.P. Liang, J.D. Qiu*. Alkynyl-based sp2 carbon-conjugated covalent organic frameworks with enhanced uranium extraction from seawater by photoinduced multiple effects, CCS Chemistry, 2021, 3(11), 168-179.

  6. W.R. Cui, C.R. Zhang, R.H. Xu, X.R. Chen, W. Jiang, Y.J. Li, R.P. Liang, L. Zhang, J.D. Qiu*. Rational design of covalent organic frameworks as a groundbreaking uranium capture platform through three synergistic mechanisms, Applied Catalysis B: Environmental, 2021, 294, 120250.

  7. C.R. Zhang, W.R. Cui, S.M. Yi, C.P. Niu, R.P. Liang, J.X. Qi, X.J. Chen, W. Jiang, X. Liu, Q.X. Luo, J.D. Qiu*. An ionic vinylene-linked three-dimensional covalent organic framework for selective and efficient trapping of ReO4- or 99TcO4-, Nature Communications, 2022, 13, 7621.

  8. J.X. Qi, C.R. Zhang, X.J. Chen, S.M. Yi, C.P. Niu, J.L. Liu, L. Zhang, R.P. Liang*, J.D. Qiu*. 3D ionic olefin-linked conjugated microporous polymers for selective detection and removal of TcO4-/ReO4- from wastewater, Analytical Chemistry, 2022, 94(30), 10850-10856.

  9. C.P. Niu, C.R. Zhang, X. Liu, R.P. Liang*, J.D. Qiu*. Synthesis of propenone-linked covalent organic frameworks via claisen-schmidt reaction for photocatalytic removal of uranium, Nature Communications, 2023, 14, 4420.

  10. C.R. Zhang, J.X. Qi, W.R. Cui, X.J. Chen, X. Liu, S.M. Yi, C.P. Niu, R.P. Liang, J.D. Qiu*. A novel 3D sp2 carbon-linked covalent organic framework as a platform for efficient electro-extraction of uranium, Science China-Chemistry, 2023, 66(2), 562-569.

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