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姓名 陈超

性别

职称 教授

学位 博士

专业化学、化工、制药

电子邮箱chaochen@ncu.edu.cn

研究方向 工业催化,多孔材料

教育工作经历

2006.6-至今 59599aa美高梅化学学院 教师 (2007年破格副教授,2013年教授)

2010.11-2011.11 美国 加州圣地亚哥分校 博士后

2007.5-2009.10 南京大学 配位化学国家重点实验室 博士后

2001.9-2006.6 吉林大学 无机合成与制备化学国家重点实验室 博士(硕博连读)

1997.9-2001.6 吉林大学 化学学院 学士

教学简介

自参加工作以来一直工作在教学第一线。目前面向化学、应用化学本科生讲授了《物理化学》、《物理化学实验》学科核心课。面向硕士生、博士生开设了《晶体化学》、《先进催化材料》及《催化科学与工程》课程。

科研简介

  1. 新型多孔材料的合成与催化性质研究;

  2. 有机-无机杂化材料的合成及催化应用;

  3. 无机非金属材料的开发及应用;

  4. 硅氢加成催化剂的开发及利用。

科研项目

  1. 手性金属-有机框架材料的机械化学法合成及不对称催化应用 国家自然科学基金(No. 22261032)

  2. 手性空心MOFs纳米反应器的构建及在不对称催化中的应用 国家自然科学基金(No. 21961021)

  3. “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)

  4. “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

  5. “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

  6. “基于金属-有机框架材料的空心手性纳米反应器的设计及在不对称催化中的应用(No. 20202ACB203001)”江西省自然科学基金重点项目

  7. “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)

  8. 江西省青年科学家培养对象 (No. 20153BCB23021)

  9. “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)

  10. “新型铂系催化剂的研制” 东莞贝特利新材料有限公司(No. 11002285)

  11. “新型卡斯特型催化剂的研制” 东莞贝特利新材料有限公司

  12. “新型Karstedt催化剂的研制” 东莞市产学研合作项目(No.2014509112210)

  13. 硅灰石的表面处理(江西省广源化工有限责任公司,企事业合作项目,主持)

  14. 石油化工废催化剂高效清洁回收关键技术开发(江西省汉氏贵金属有限公司,企事业合作项目,主持)

  15. 硅氢加成反应的效率提升(江西晨光新材料股份有限公司,企事业合作项目,主持)

  16. 江西省木质家具行业职业卫生监督监测信息系统(江西省安全生产科学技术研究中心,企事业合作项目,主持)

  17. 59599aa美高梅示范研究生导师创新团队

  18. 59599aa美高梅-广源化工研究生联合培养基地

  19. 南昌市稀土化工新材料开发及利用重点实验室

社会兼职

中国化学会会员

江西省化学教学指导委员会 委员

欧美同学会留美总会青委会 委员

江西省归国人员联谊会 理事

江西省归国人员联谊会青年分会 副会长

59599aa美高梅欧美同学会59599aa美高梅留学人员联谊会青年分会 常务副秘书长

民进59599aa美高梅基层委员会 副主委、秘书长

民进江西专业委员会科技委员会 主任

江西省环境与能源催化重点实验室 副主任

南昌市稀土化工新材料开发及利用重点实验室 主任

江西省应急厅专家库专家

获奖情况

2011年江西省高等学校第七届学术骨干教师

2013年江西省高等学校科技成果奖二等奖

2014年江西省优秀硕士学位论文指导教师

2017年江西省自然科学奖二等奖

2017年江西省教学成果奖二等奖

2019江西省百千万人才工程

2020年 江西省井冈学者特聘教授

代表性论文及专利

均为通讯作者或第一作者

  1. Zhang, B.; Zhu, Y.; Shi, S.; Li, Y.; Luo, Y.; Huang, Z.; Xiao, W.; Wang, S.; Zhang, P.; Shu, Y.; Chen, C.*, Embedding Hierarchical Pores by Mechanochemistry in Carbonates with Superior Chemoselective Catalysis and Stability, Inorganic Chemistry, 2023, 62, 32, 12920-12930.

  2. Wan, L.; Yuan, M.; Xiong, G.; Shi, S.; Xiao, W.; Chen, C.*; Ai, F., Penetrating Honeycomb Structured MOF Flexible Membrane with Ultra-high Flux and Excellent Catalytic Activity, Journal of Industrial and Engineering Chemistry, 2023, 125, 294-302.

  3. Jin, C.; Shi, S.; Liao, S.; Liu, S.; Xia, S.; Luo, Y.; Wang, S.; Wang, H.; Chen, C.*, Post-Synthetic Ligand Exchange by Mechanochemistry: towards Green, Efficient and Large-scale Preparation of Functional Metal-Organic Frameworks, Chemistry of Materials, 2023, 35, 4489-4497.

  4. Liu, S.; Yang, Y.; Xiao, W.; Xia, S.; Jin, C.; Wang, W.; Li, S.; Zhong, M.; Wang, S.; Chen, C.*, Metal-organic frameworks derived porous MoS2/CdS heterostructure for efficient photocatalytic performance towards hydrogen evolution and organic pollutants, International Journal of Hydrogen Energy, 2023.

  5. Chen, C.; Zhao, C.; Zhao, D.; Ding, S.; Chen, C.*, The Importance of Constructing Tripie-functional Sr2P2O7/Ni2P Catalysts for Smoothing Hydrogenation Ring-rearrangment of Biomass-derived Furfural Compounds in Water, Journal of Catalysis, 2023, 421, 117-133.

  6. Wang, W.; Xiao, W.; Zhu, Y.; Liu S.; Wang, S.; Chen, C.*, Fabrication of a highly dispersed Co3O4-modified MOF-derived ZnO@ZnS porous heterostructure for efficient photocatalytic hydrogen production, Cryst Eng Comm, 2023, 25, 1358-1364.

  7. Wang, L.; Peng, H.; Shi, S.; Li, S.; Ding, S.; Zhao, D.; Wang, S.; Chen, C.*, Microwave non-thermal fusion of MOFs derived Cu-O-Ce interface for boosting CO preferential oxidation, Applied Surface Science, 2023, 610, 155466.

  8. Wang, L.; Peng, H.; Li, S.; Shi, S.; Ding, S.; Zhao, D.; Wang, S.; Chen, C.*, Fine-tuning Cu–Co–Ce oxidation activity interface by unique microwave electromagnetic loss for boosting CO preferential oxidation in H2 steam, International Journal of Hydrogen Energy, 2022.

  9. Xu, M.; Xu, Y.; Liu, Y.; Zhao, D.; Ding, S.; Chen, C.*, NiyCo2-yP alloy catalysts with assistance of Y for boosting Low-pressure hydrogenation transformation of Biomass-derived levulinic acid or furfural in water. Applied Surface Science, 2022, 601, 154142.

  10. Zhang, B.; Li, M.; Lei, H.; Chen, J.;Wang, S.; Chen, C.*, Combining shell confinement and outside decoration to boost the selectivity of Pt nanocatalysts in hollow-flower like Zr-MOFs double shell micro-reactor for hydrogenation cinnamaldehyde to unsaturated alcohol, Applied Surface Science, 2022, 599, 153899.

  11. Liu, S.; Xiao, W.; Jin, C.; Xia, S.; Wang, W.; Jiang, X.; Li, L.; Wang, S.; Chen, C.*, MOFs derived CdS/CdO heterojunction photoanode for high-efficient water splitting, Applied Surface Science, 2022, 605, 154687.

  12. Liang, S.; Shi, S.; Ding, S.; Xiao, W.; Wang, H.; Wang, S; Zeng, R.; Chen, C.*; Song, W., Construction of a transition-metal-free mesoporous organic phenanthroline-based polymeric catalyst for boosting direct activation of aromatic C-H bonds, Catalysis Science and Technology, 2022, 12, 6650-6654.

  13. Yu, Y.; Wan, L.; Cheng, W.; Shi, S.; Yuan, M.; Luo, Y.; Mei, L.; Xu, T.; Wang, S.; Zhao, D.; Xiao, W.; Ai, F.; Fang, Q.; Chen, C.*, Self-Stirring Microcatalysts: Large-Scale, High-Throughput, and Controllable Preparation and Application. Inorganic Chemistry. 2022, 61, 30, 11757-11765

  14. Jin, C.; Chen, Z.; Shi, S.; Li, Y.; Liu, S.; Wang, S.; Wang, H.; Chen, C.*, Green and Large-Scale Preparation of Chiral Metal-Organic Frameworks via Mechanochemistry. Inorganic Chemistry. 2022, 61, 31, 12190-12196.

  15. Xu, M.; Jia, X.; Zhao, D.; Zhao, C.; Ke, H.; Chen, C.*, Modification of Ni2P with LaPO4 for efficiently photocatalytic and electrocatalytic production of green-H2. Catalysis Today. 2022, 402, 310-318.

  16. Wang, L.; Peng, H.; Xie, W.; Shi, S.; Yuan, M.; Zhao, D.; Wang, S.; Chen, C.*, Microwave pyrolysis-engineered MOFs derivatives for efficient preferential CO oxidation in H2-rich stream. Chemical Engineering Science. 2022, 256, 117675.

  17. Wang, L.; Peng H.; Shi, S.; Hu, Z.; Zhang, B.; Ding, S.; Wang, S.; Chen, C.*, Metal-organic framework derived hollow CuO/CeO2 nano-sphere: To expose more highly dispersed Cu-O-Ce interface for enhancing preferential CO oxidation. Applied Surface Science. 2022, 573, 151611.

  18. Jiang, X.; Liu, S.; Wang, W.; Shi, S.; Zeng, Z.; Chen, C.*, Enhanced Singlet Oxygen Generation in PCN-224-Zn without the Need of Electron-Hole Separation for Efficient Photocatalytic Water Disinfection. Applied Surface Science. 2021, 575, 151769.

  19. Yu, Y.; Zhong, Y.; Xie, D.; Luo, G.; Mao, Y.; Yuan, M.; Xiao, W.; Wang, S.; Chen, C.*, Fe3O4 Nanorods Coated with ZIF-8 and Decorated with Pt Nanoparticles as Magnetically Actuated Nanoscale Stirring Bars for Catalytic Dye Degradation, H2 Production, and Hydrogenation of Olefins. ACS Applied Nano Materials. 2021, 4, 10999-11006.

  20. Shi, S.; Yu, Y.; Zhang, B.; Zhong, Y.; Wang, L.; Wang, S.; Ding, S.; Chen, C.*, Step by Step Construction of Multifunctional Hollow Double Shell MNPs@MOF as a Powerful Tandem/Cascade Catalyst. Frontiers in Chemistry. 2021, 9, 738736.

  21. Shi, S.; Zhong, Y.; Hu, Z.; Wang, L.; Yuan, M.; Ding, S.; Wang, S.; Chen, C.*, Chiral Yolk-Shell MOF as an Efficient Nanoreactor for Asymmetric Catalysis in Organic-Aqueous Two-Phase System. Inorganic Chemistry. 2021, 60, 12714-12718.

  22. Zhang, Y.; Dai, B.; Zhao, D.; Zhang, D.; Xu, M.; He, Xiang.; Chen, C.*, Promotion effects of PrPO4 for the hydrogenation transformation of biomass-derived compounds over Pr–Ni–P composites. Materials Advances. 2021, 2, 3927-3939.

  23. Shen, X.; Li, W.; Ding, Shun.; Ma, Xiao.; Wu, Shao.; Xiao, W.; Zeng, Rong.; Hong, San.; Chen, Chao.*, Construction of mesoporous ceria-supported gold catalysts with rich oxygen vacancies for efficient CO oxidation. Journal of Rare Earths. 2022, 40, 434-442.

  24. Wang, G.; Geng, J.; Qi, X.; Du, T.; Zeng, Y.; Yu, R.; Yuan, M.; Peng, H.; Li, H.; Chen, C.*, Rheological performances and enhanced sedimentation stability of mesoporous Fe3O4 nanospheres in magnetorheological fluid. Journal of Molecular Liquids. 2021, 336, 116389.

  25. He, X.; Dai B.; Zhang Y.; Zhao D.; Zhang D.; Liang R.; Chen C.*, Unique Capability of NdPO4 to Activate Hydrogen for Efficient Hydrogenation of Furfural to Furfuryl Alcohol over Nd-Co-P Composites. Journal of Rare Earths. 2021, 40(7): 1073-1082.

  26. Chen, Z.; Yan, X.; Li, M.; Wang, S.; Chen, C.*, Defect-Engineered Chiral Metal-Organic Frameworks for Efficient Asymmetric Aldol Reaction. Inorganic chemistry. 2021, 60, 4362-4365.

  27. Hu, Z.; Shi, S.; Wang, L.; Chen, S.; You, Y.; Wang, S.; Chen, C.*, MOF-derived AgCo alloy nanoparticle protected by mesoporous carbon as chemoselective catalyst for hydrogenation of citral. Applied Surface Science 2020, 528, 146992.

  28. Mao, Y.; Wang, Q.; Yu, L.; Qian, H.; Deng, S.; Xiao, W.; Zhao, D.; Chen, C.*, A 2-Fold Interpenetrated Nitrogen-Rich Metal-Organic Framework for Rapid and Selective Adsorption of Congo Red. Inorganic Chemistry. 2020, 12, 8213-8219.

  29. Liu, Y.; Zhang, D.; Li, X.; Deng, S.; Zhao, D.; Zhang, N.; Chen, C.*, Construction of highly-dispersed and composition-adjustable CoxN in stable Co@CoxN@C nanocomposite catalysts via a dual-ligand-MOF strategy for the selective hydrogenation of citral. Applied Surface Science. 2020, 505, 144387.

  30. Li, W.; Shen, X.; Zeng, R.; Chen, J.; Xiao, W.; Ding, S.; Chen, C.*; Zhang, R.; Zhang, N., Constructing copper-ceria nanosheets with high concentration of interfacial active sites for enhanced performance in CO oxidation. Applied Surface Science. 2019, 492, 818-825.

  31. Zhong, Y.; Mao, Y.; Shi, S.; Wan, M.; Ma, C.; Wang, S.; Chen, C.*; Zhao, D.; Zhang, N., Fabrication of Magnetic Pd/MOF Hollow Nanospheres with Double-Shell Structure: Toward Highly Efficient and Recyclable Nanocatalysts for Hydrogenation Reaction. Acs Applied Materials & Interfaces. 2019, 35, 32251-32260.

  32. Liu, X.; Ma, R.; Zhao, D.; Chen, C.*; Zhang, N., Construction of a Highly-Dispersed and Efficient Charge-Separation-Transferring Interface by Oxidatively-Bonding Rh in Cu2O Surface for Dye Photodegradation. Journal of Physical Chemistry C. 2019, 18, 11611-11620.

  33. Lin, L.; Huang, S.; Zhu, Y.; Du, B.; Zhang, Z.; Chen, C.*; Wang, X.; Zhang, N., Construction of CdS/MoS2 heterojunction from core-shell MoS2@Cd-MOF for efficient photocatalytic hydrogen evolution. Dalton Transactions. 2019, 8, 2715-2721.

  34. Li, X.; Zhang, Z.; Xiao, W.; Deng, S.; Chen, C.*; Zhang, N., Mechanochemistry-assisted encapsulation of metal nanoparticles in MOF matrices via a sacrificial strategy. Journal of Materials Chemistry A. 2019, 24, 14504-14509.

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

  36. Yan, X.; Wang, K.; Xu, X.; Wang, S.; Ning, Q.; Xiao, W.; Zhang, N.; Chen, Z.; Chen, C.*, Bronsted Basicity in Metal-Organic Framework-808 and Its Application in Base-Free Catalysis. Inorganic Chemistry. 2018, 14, 8033-8036.

  37. Liu, X.; Li, X.; Qian, H.; Chi, J.; Chen, B.; Wang, S.; Chen, C.*; Zhang, N., Preferential CO oxidation over CuO-CeO2 catalyst synthesized from MOF with nitrogen-containing ligand as precursor. International Journal of Hydrogen Energy. 2018, 52, 23299-23309.

  38. Wan, M.; Zhang, X.; Li, M.; Chen, B.; Yin, J.; Jin, H.; Lin, L.; Chen, C.*; Zhang, N., Hollow Pd/MOF Nanosphere with Double Shells as Multifunctional Catalyst for Hydrogenation Reaction. Small. 2017, 13, 1701395.

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

  40. Chen, D.; Luo, R.; Li, M.; Wen, M.; Li, Y.; Chen, C.*; Zhang, N., 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, 79, 10930-10933.

授权专利

  1. 陈超梁秋鸿史顺利赵丹汪淑华张宁一种用于合成 KH-560 硅烷偶联剂的固载型催化剂及其制备方法 ZL 202010182730.3 2023.05.24

  2. 陈超胡卓史顺利汪淑华赵丹丁顺民一种碳包覆的钴银合金催化剂的制备方法 ZL201910782431.0 2023.03.31

  3. 陈超袁铭伟彭鹤松宋波一种二氧化硅@硅酸钙中空纳米球及其制备方法和应用 ZL202110478939.9 2022.07.22

  4. 陈超胡卓付林杰钟贻成赵丹丁顺民肖卫明邓圣军一种核壳型柠檬醛选择性加氢催化剂的合成方法 ZL201910732055.4 2022.07.12

  5. 陈超付林杰陈祥斌赵丹丁顺民具有高分散性的光固化液体硅橡胶催化剂及其制备方法 ZL201910409380.7 2022.04.12

  6. 陈超史顺利钟贻成汪淑华赵丹丁顺民一种手性中空结构的金属-有机框架材料的合成方法及应用 ZL202010290602.0 2022.03.22

  7. 陈超,袁铭伟,彭鹤松,宋波,李海滨,一种重质碳酸钙改性剂、改性超细重质碳酸钙及其制备方法和应用、顺丁橡胶复合材料, CN202110269285.92021.10.22

  8. 陈超袁铭伟彭鹤松宋波李海滨改性超细重质碳酸钙及其制备方法和应用、顺丁橡胶复合材料 ZL202110269285.9 2021. 03.12

  9. 陈超,金海超,万明明,赵丹,张宁,曾建伟,汤胜山一种用于提高LED银元件防硫化性能的保护剂及制备和使用方法, ZL201610288402.5 2019.10.01

  10. 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,ZL201510881545.2 2018.08.17

  11. 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, ZL201610246337.X 2018.06.08

职位 59599aa美高梅科技处处长