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陈超
教授
博士
化学
chaochen@ncu.edu.cn
微孔材料,催化


2006-至今 新葡萄京官网8455教师

20102011 美国 加州圣地亚哥分校 博士后

20072009 南京大学 配位化学国家重点实验室 博士后

2006年于  吉林大学 无机合成与制备化学国家重点实验室获博士学位

2001年于  吉林大学 化学院获学士学位



面向新葡萄京官网8455本科生主讲核心课《物理化学》、《化学信息学》、《物理化学实验》等课程;面向硕士生开设《晶体化学》课程;面向博士生开设《新催化材料》、《催化科学与工程》课程


主要从事微孔材料、有机-无机杂化材料的合成及催化应用研究

博士生导师 面向工业催化方向招生

硕士生导师 面向 化学、工业催化、应用化学等专业招生






1.南昌大学一流学科建设-环境光健康方向(No. 9166-2704000104)900万 2018-2020

2.“以CeO2@MOFs核-壳材料为前驱体制备表面活性物种高度分散的CO-PROX催化剂” 国家自然科学基金(No. 21661020) 40万 2017-2020

3.“金属-有机骨架化合物(MOFs)的手性后合成修饰及不对称催化研究” 国家自然科学基金(No. 21261017)48万

4.“具有手性构筑单元稀土微孔材料的设计、合成、结构及形成机理的研究” 国家自然科学基金(No. 20701018)15万

5.“金属-有机骨架材料的手性后修饰及在医药中间体不对称催化合成的应用” 江西省自然科学基金重点项目(No.20133ACB20001)50万

6.“具有手性特征的新型稀土微孔固体材料的合成与性质研究” 江西省自然科学基金(No. 2007GZH2755)2.5万

7.“手性稀土微孔化合物的设计、合成及结构形成机理研究” 江西省教育厅科学基金(No. GJJ08022) 2万

8.“具有分子筛拓扑结构的d-f金属有机框架化合物的设计与合成研究” 中国博士后科学基金(No. 20070420979)3万

9.江西省青年科学家培养对象 (No. 20153BCB23021)10万 2015-2017

10. “金属-有机骨架化合物的手性后合成修饰及不对称催化研究”江西省自然科学基金(No. 20132BAB203009)5万 2014-2015

11. “新型铂系催化剂的研制” 东莞贝特利新材料有限企业(No. 11002285)12万2016-2018

12.“新型Karstedt催化剂的研制” 东莞市产学研合作项目(No.2014509112210) 80/380 万 2014-2017

13.“导师组制在江西高校研究生培养中的研究与实践” 江西省学位与研究生教育改革项目(No. JXYJG-2012-019)2万 2015-2017


南昌大学欧美同学会留学归国人员联谊会青委会 常务副秘书长

江西省欧美同学会留学归国人员联谊会 理事




2011 江西省高等学校中青骨干教师

2013 江西省高校科技成果奖

2014 江西省优秀硕士论文引导教师

2015 江西省青年科学家培养对象

2016 南昌大学赣江特聘教授

2017 江西省自然科学二等奖

2017 江西省教学成果二等奖



第一编辑或通讯编辑:


[1]      L. Lin, S. Huang, Y. Zhu, B. Du, Z. Zhang, C. Chen*, X. Wang, N. Zhang, Construction of CdS/MoS2 heterojunction from core-shell MoS2@Cd-MOF for efficient photocatalytic hydrogen evolution, Dalton Transactions 2019, 48, 2715-2721.

[2]      W. Lian, B. Chen, B. Xu, S. Zhang, Z. Wan, D. Zhao, N. Zhang, C. Chen*, Acquiring Clean and Highly Dispersed Nickel Particles (ca. 2.8 nm) by Growing Nickel-Based Nanosheets on Al2O3 as Efficient and Stable Catalysts for Harvesting Cyclohexane Carboxylic Acid from the Hydrogenation of Benzoic Acid, Industrial & Engineering Chemistry Research 2019, 58, 2846-2856.

[3]     X. Zhang, Z. Chen, X. Yang, M. Li, C. Chen*, N. Zhang, The fixation of carbon dioxide with epoxides catalyzed by cation-exchanged metal-organic framework, Microporous and Mesoporous Materials 2018, 258, 55-61.

[4]      X. Yan, K. Wang, X. Xu, S. Wang, Q. Ning, W. Xiao, N. Zhang, Z. Chen, C. Chen*, Bronsted Basicity in Metal-Organic Framework-808 and Its Application in Base-Free Catalysis, Inorganic Chemistry 2018, 57, 8033-8036.

[5]      X. Liu, X. Li, H. Qian, J. Chi, B. Chen, S. Wang, C. Chen*, N. Zhang, Preferential CO oxidation over CuO-CeO2 catalyst synthesized from MOF with nitrogen-containing ligand as precursor, International Journal of Hydrogen Energy 2018, 43, 23299-23309.

[6]      M. Wan, X. Zhang, M. Li, B. Chen, J. Yin, H. Jin, L. Lin, C. Chen*, N. Zhang, Hollow Pd/MOF Nanosphere with Double Shells as Multifunctional Catalyst for Hydrogenation Reaction, Small 2017, 13.

[7]      M. Wan, X. Zhang, M. Li, B. Chen, J. Yin, H. Jin, L. Lin, C. Chen*, N. Zhang, Hollow Pd/MOF Nanosphere with Double Shells as Multifunctional Catalyst for Hydrogenation Reaction, Small (Weinheim an der Bergstrasse, Germany) 2017, 13.

[8]      L. Song, X. Zhang, C. Chen*, X. Liu, N. Zhang, UTSA-16 as an efficient microporous catalyst for CO2 conversion to cyclic carbonates, Microporous and Mesoporous Materials 2017, 241, 36-42.

[9]      D. Chen, R. Luo, M. Li, M. Wen, Y. Li, C. Chen*, N. Zhang, Salen(Co(III)) imprisoned within pores of a metal-organic framework by post-synthetic modification and its asymmetric catalysis for CO2 fixation at room temperature, Chemical Communications 2017, 53, 10930-10933.

[10]    K. Wang, L. Xu, H. Chen, H. Qiao, C. Chen*, N. Zhang, Hydrogenation of 4-Nitrophenol over MIL-101 Confinement Au Nanoparticles Catalyst, Chemical Journal of Chinese Universities-Chinese 2016, 37, 723-727.

[11]   L. L. Song, C. Chen*, F. Luo, S. Y. Huang, L. L. Wang, N. Zhang, Isoreticular MOFs functionalized in the pore wall by different organic groups for high-performance removal of uranyl ions, Journal of Radioanalytical and Nuclear Chemistry 2016, 310, 317-327.

[12]    L. Song, C. Chen*, X. Chen, N. Zhang, Basic Catalytic Performance of Amino and Acylamide Functionalized Metal-organic Framework in the Synthesis of Chloropropene Carbonate from CO2 Under Atmospheric Pressure, Chemical Research in Chinese Universities 2016, 32, 838-842.

[13]    L. Song, C. Chen*, X. Chen, N. Zhang, Isomorphic MOFs functionalized by free-standing acylamide and organic groups serving as self-supported catalysts for the CO2 cycloaddition reaction, New Journal of Chemistry 2016, 40, 2904-2909.

[14]    H. Liu, Z. Wang, H. Chen, R. Zhang, C. Chen*, N. Zhang, Post-synthetic Modification of UMCM-1-NH2 as a Catalyst to Prepare beta-Amino Alcohols, Chemical Journal of Chinese Universities-Chinese 2016, 37, 2012-2017.

[15]    B.-Y. Kou, C. Chen*, J. Chi, H.-Z. Chen, N. Zhang, Cu2O@IIKUST-1 Core-Shell Structure Materials: Preparation and Antioxidant Capacity, Chinese Journal of Inorganic Chemistry 2016, 32, 1149-1153.

[16]    C. Chen*, N. Zhang, New approach to synthesis of CuO/CeO2 catalysts by metal organic frameworks (MOFs) precursor for preferential CO oxidation, Abstracts of Papers of the American Chemical Society 2016, 252.

[17]    C. Chen*, P. Shen, M. Wan, N. Ding, X. Shi, X. Wang, N. Zhang, Size-selective epoxidation of olefins in two new metal-organic framework constructed from six-coordinated tetranuclear Cu(II) SBUs, Microporous and Mesoporous Materials2016, 232, 167-173.

[18]    J. Yin, S. Ding, L. Zeng, H. Xia, C. Chen*, N. Zhang, Functionalized Graphene Oxide Supported Pd Nanoparticles Catalyzed Heck Coupling Reaction, Chemical Journal of Chinese Universities-Chinese 2015, 36, 720-724.

[19]    C. Chen*, R. Wang, P. Shen, D. Zhao, N. Zhang, Inverse CeO2/CuO catalysts prepared from heterobimetallic metal organic framework precursor for preferential CO oxidation in H-2-rich stream, International Journal of Hydrogen Energy 2015, 40, 4830-4839.

[20]    S. Wang, L. Xu, P. Shen, C. Chen*, N. Zhang, in Mechanical Science and Engineering Iv, Vol. 472 (Ed.: Y. Wang), 2014, pp. 666-670.

[21]    S. Wang, P. Wang, P. Li, N. Zhang, C. Chen*, Postsynthetic Modification of UMCM-1-NH2 and Fluorescence Recognition for Magnesium, Chemical Journal of Chinese Universities-Chinese 2014, 35, 2499-2504.

[22]    S. Wang, H. Hu, C. Chen*, R. Ma, N. Zhang, Lanthanide Metal-organic Frameworks Constructed from Evolution of a C-3 Symmetry Ligand Syntheses, Structures and Luminescent Properties, Chemical Journal of Chinese Universities-Chinese 2014, 35, 2055-2060.

[23]    R. Wang, C. Chen*, S. Deng, P. Shen, L. Gong, N. Zhang, IMPROVEMENT OF PREFERENTIAL CO OXIDATION ACTIVITY OVER CUO/CO3O4-CEO2 CATALYSTS: EFFECT OF CO/CE RATIO, Journal of the Chilean Chemical Society 2014, 59, 2710-2716.

[24]    F. Rao, S. Deng, C. Chen*, N. Zhang, Graphite oxide-supported Karstedt catalyst for the hydrosilylation of olefins with triethoxysilane, Catalysis Communications 2014, 46, 1-5.

[25]   C. Chen*, J. Zhang, G. Li, P. Shen, H. Jin, N. Zhang, Two coordination polymers constructed from a multidentate carboxylic acid ligand with a tertiary amine serve as acid-base catalysts for the synthesis of chloropropene carbonate from CO2 under atmospheric pressure, Dalton Transactions 2014, 43, 13965-13971.

[26]    F. Zhang, C. Chen*, L. Xu, N. Zhang, Thermal Decomposition Investigation of Zn4O(NH2-BDC)(3) (IRMOF-3) and NH2-BDC by in situ DRIFTS, Asian Journal of Chemistry 2013, 25, 1937-1941.

[27]    L. Xu, C. Chen*, R. Wang, J.-H. Luo, Y.-L. Liu, N. Zhang, Preparation of CuO/CeO2 Catalysts from Metal-organic Frameworks Precursor for Preferential CO Oxidation, Chemical Journal of Chinese Universities-Chinese 2013, 34, 1907-1912.

[28]    D. Wu, C. Chen*, S. Deng, S. Ding, Y. Peng, N. Zhang, Synthesis of Ethyl Tert-Butyl Ether with Tert-Butyl Alcohol and Ethanol on a H_2SO_4 Activated Bentonite, Journal of Molecular Catalysis(China) 2013, 27, 413-419.

[29]    Y. Wan, C. Chen*, W. Xiao, L. Jian, N. Zhang, Ni/MIL-120: An efficient metal-organic framework catalyst for hydrogenation of benzene to cyclohexane, Microporous and Mesoporous Materials 2013, 171, 9-13.

[30]    P. Shen, C. Chen*, R. Wang, W. Jiang, N. Zhang, CuO/CeO2 Catalysts Prepared by Iodic Acid Improved Sol-gel Method for Preferential CO Oxidation, Chemical Journal of Chinese Universities-Chinese 2013, 34, 2580-2586.

[31]    F. Zhang, C. Chen*, W.-m. Xiao, L. Xu, N. Zhang, CuO/CeO2 catalysts with well-dispersed active sites prepared from Cu-3(BTC)(2) metal-organic framework precursor for preferential CO oxidation, Catalysis Communications 2012, 26, 25-29.

[32]    C. Zhang, C. Chen*, S. Liu, N. Zhang, Modulated assembly of interdigitated 1D isolated tube and 2D highly undulating layer based on N-donor ligand and multidentate carboxylic acid, Inorganic Chemistry Communications 2012, 20, 18-22.

[33]    R. Yuan, C. Chen*, N. Zhang, Targeted Highly-Thermostable Metal-Organic Frameworks Directed by Imidazole: Syntheses, Structures, Thermal Behaviors and Luminescent Properties, Journal of Inorganic and Organometallic Polymers and Materials 2012, 22, 507-513.

[34]    W. Xiao, C. Chen*, B. Sun, N. Zhang, Crystal structure of 1,4-diazoniabicyclo 2.2.2 octane 3,3 '-dicarboxy-biphenyl-4,4 '-dicarboxylate dihydrate, C6H14N2 C16H8O8 center dot 2H(2)O, Zeitschrift Fur Kristallographie-New Crystal Structures 2012, 227, 151-152.

[35]    X. Qian, N. Zhang, M. Xu, C. Chen*, The study on a mixed-phase I-N-TiO2 for the treatment of azithromycin wastewater under visible light, Journal of Materials Science 2011, 46, 1147-1152.

[36]    R. Ma, C. Chen*, B. Sun, X. Zhao, N. Zhang, A new 3D metal-organic framework with (4,8)-connected AlB2 topology constructed from coordinated evolution of a C-3 symmetry ligand, Inorganic Chemistry Communications 2011, 14, 1532-1536.

[37]    L. Jian, C. Chen*, F. Lan, S. Deng, W. Xiao, N. Zhang, Catalytic activity of unsaturated coordinated Cu-MOF to the hydroxylation of phenol, Solid State Sciences 2011, 13, 1127-1131.

[38]    C. Chen*, C. A. Allen, S. M. Cohen, Tandem postsynthetic modification of metal-organic frameworks using an inverse-electron-demand Diels-Alder reaction, Inorganic Chemistry 2011, 50, 10534-10536.

[39]    W. M. Xiao, C. Chen*, S. J. Deng, X. J. Mao, B. Sun, N. Zhang, Supramolecular assembly of [H(4-n)BPTC](n-) with pipzH(2)(2+): 1D negatively charged rectangular tubes and a 2D neutral fes 4.8(2) network, CrystEngComm 2010, 12, 2011-2013.

[40]    S. J. Deng, N. Zhang, W. M. Xiao, C. Chen*, A 2D brickwall architecture from a double-T-shaped ligand and hybrid coordinatively unsaturated copper: Synthesis, structure, and framework dynamic, Inorganic Chemistry Communications 2009, 12, 157-160.

[41]    S. J. Deng, N. Zhang, W. M. Xiao, C. Chen*, Crystal structure of neodymium(III) formate, Nd(HCO2)(3), Zeitschrift Fur Kristallographie-New Crystal Structures2009, 224, 275-276.

[42]    C. Chen, S. Wang, N. Zhang, Z. Yan, W. Pang, Novel fluorinated indium phosphate with a double-layers structure: Assembled from racemic chiral building units, Microporous and Mesoporous Materials 2007, 106, 1-7.

[43]   C. Chen, Z. Yi, M. Bi, Y. Liu, C. Wang, L. Liu, Z. Zhao, W. Pang, Hydrothermal synthesis and characterization of the first 1-D indiumphosphate chain In2(HPO4)2(H2PO4)2F2·C4N2H12, a precursor for high dimensional structures, Journal of Solid State Chemistry 2006, 179, 1478-1485.

[44]    C. Chen, Y. L. Liu, Q. R. Fang, L. Liu, J. F. Eubank, N. Zhang, S. Z. Gong, W. Q. Pang, Novel open-framework fluorinated indium phosphate with 14-ring intersecting channels: Assembled from 6*1 and racemic pillared secondary building units, Microporous and Mesoporous Materials 2006, 97, 132-140.

[45]    C. Chen, Y. Liu, S. Wang, G. Li, M. Bi, Z. Yi, W. Pang, Hydrothermal syntheses, structural characterizations, and photoluminescence properties of three fluorinated indium phosphates with bipyridyl ligands: In3F2(2,2 '-bipy)(2)(HPO4)(2)(H1.5PO4)(2), In2F2(H2O)(2,2 '-bipy)(HPO4)(2), and In2F2(H2O)(2,2 '-bipy-5-amine)(HPO4)(2), Chemistry of Materials 2006, 18, 2950-2958.

[46]  C. Chen, Z. Yi, H. Ding, G. Li, M. Bi, Y. Yang, S. Li, W. Li, W. Pang, Template synthesis and characterization of a novel three-dimensional open-framework indium phosphate (C6N4H22)1/2[In3(HPO4)6]·H3O, Microporous and Mesoporous Materials 2005, 83, 301-308.

[47]  C. Chen, Y.-L. Yang, K.-L. Huang, Z.-H. Sun, W. Wang, Z. Yi, Y.-L. Liu, W.-Q. Pang, Hydrothermal synthesis and intercalation behavior of a layered titanium phosphate Ti2(H2PO4)(HPO4)(PO4)2·0.5C6N2H16, with an extended γ-phase intercalated into organic amine, Polyhedron 2004, 23, 3033-3042.


授权专利:



1.   陈超,万明明,金海超,赵丹,张宁,一种LED银支架防银変色剤及制备和成膜方法,发明专利ZL201610246337.X,授权时间2018.6.8

2.   陈超,王慧泽,彭艳,赵丹,张宁,一种Ni/ZrO2加氢催化剂的合成方法及该催化剂在加氢反应中的应用,发明专利ZL201510881545.2,授权时间 2018.8.17

3.   赵丹,涂长满,胡雪静,邓圣军,肖卫明,陈超,张宁,一种表面为稳定多价态铜复合层Cu2O基纳米材料的制备方法,发明专利ZL201510651665.3,授权时间 2016.11.16

4.   赵丹,王慧泽,邓圣军,肖卫明,陈超,张宁,一种表面高分散贵金属高指数晶面纳米颗粒的制备方法,发明专利ZL201410014413.5,授权时间2016.4.13

5.   赵丹,邢萌萌,曾春,邓圣军,肖卫明,陈超,张宁,一种铜氧化物表面复合锰氧化层材料的制备方法,发明专利ZL201610943922.5,授权时间2019.1.11

6.   赵丹,邢萌萌,曾春,邓圣军,肖卫明,陈超,张宁,一种铜氧化物表面复合铈氧化层材料的制备方法,发明专利ZL201610943921.0,授权时间2019.1.11



新葡萄京官网8455副院长,基础化学实验教学中心常务副主任


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