郑州轻工业大学材料与化学工程学院研究生导师刘春森简介 郑轻刘春森老师学术背景

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郑州轻工业大学硕士生导师基本情况一览表
姓名
刘春森


职称
教授

学科/专业学位类别
化学工程与技术材料科学与工程

研究方向
分子基多孔材料

1.导师基本情况
刘春森，理学博士，教授，博士生导师，河南省****、教育部新世纪人才，加拿大英属哥伦比亚大学（UBC）访问****。现任河南省表界面科学重点实验室办公室主任以及分子基功能材料方向学术带头人，河南省化学会理事以及河南省青年科技工作者协会理事。多年来一直从事功能分子基多孔材料等前沿交叉领域课题的研究工作。先后主持国家自然科学基金-河南省联合基金重点项目，国家自然科学基金面上项目，国家自然科学基金青年基金，教育部新世纪人才支持计划，河南省科技创新杰出人才计划，河南省科技创新****基金、河南省高校科技创新团队等计划项目8项。曾获河南省青年科技奖并被荣膺河南省青年科技专家荣誉称号（2014）；入选英国皇家化学会Top 1%高被引中国作者（2018）；获河南省科技进步二等奖2项（2012，2016）。已在J. Am. Chem. Soc.，Angew. Chem. Int. Ed.等国际高水平学术期刊上发表SCI收录论文近140篇，其中影响因子大于10的6篇，JCR一区28篇，ESI高被引论文3篇，总被引用>4000次，获授权发明专利30多项。曾多次应邀在国内外学术会议上做报告并到国内外相关大学和研究机构（如美国 西班牙 法国 新加坡 加拿大澳大利亚等）访问交流。
2. 代表性成果
（一）代表性SCI论文
1D. Shi,R. Zheng,M.-J. Sun, X. Cao, C.-X. Sun, C.-J. Cui,C.-S. Liu*, J. Zhao,M. Du*“Semi-Conductive Copper(I)–Organic Frameworks for Efficient Light-Driven Hydrogen Generation Without Additional Photosensitizers and Cocatalysts”,
Angew. Chem. Int. Ed.2017,56,14637–14641.
2M. Du*, C.-P. Li, M. Chen, Z.-W. Ge, X. Wang, L. Wang,C.-S. Liu*, “Divergent Kinetic and Thermodynamic Hydration of a Porous Cu(II)Coordination Polymer with Exclusive CO₂Sorption Selectivity”,
J. Am. Chem. Soc.2014,136, 10906?10909.
3M. Du*, C.-P. Li,C.-S. Liu, S.-M. Fang*, “Design and construction of coordination polymers with mixed-ligand synthetic strategy”,
Coord. Chem. Rev.2013,257, 1282–1305.
4M. Du*, M. Chen, X.-G. Yang, J. Wen, X. Wang, S.-M. Fang,C.-S. Liu*, “A channel-type mesoporous In(III)–carboxylate coordination framework with high physicochemical stability for electrode material of supercapacitor”,
J. Mater. Chem. A. 2014,2,9828–9834.
5D.-M. Chen, J.-Y. Tian, M. Chen,C.-S. Liu*, M. Du*, “Moisture-Stable Zn(II) Metal?Organic Framework as a Multifunctional Platform for Highly Efficient CO₂Capture and Nitro Pollutant Vapor Detection”,
Acs Appl. Mater. Interfaces2016,8, 18043?18050.
6D.-M. Chen, N.-N. Zhang, J.-Y. Tian,C.-S. Liu*, M. Du*, “Pore modulation of metal–organic frameworks towards enhanced hydrothermal stability and acetylene uptake via incorporation of different functional brackets”,
J. Mater. Chem. A.2017,5, 4861–4867.
7Y. Song, F. Duan, S. Zhang, J.-Y. Tian, Z. Zhang, Z.-W. Wang,C.-S. Liu*, W.-M. Xu, M. Du*, “Iron oxide@mesoporous carbon architectures derived from an Fe(II)-based metal organic framework for highly sensitive oxytetracycline determination”,
J. Mater. Chem. A. 2017,5, 19378?19389.
8D.-M. Chen, N.-N. Zhang,C.-S. Liu*and M. Du*, “Dual-Emitting Dye@MOF Composite as a Self-Calibrating Sensor for 2,4,6-Trinitrophenol”,
Acs Appl. Mater. Interfaces2017,9, 24671?24677.
9C.-P. Li, B.-L. Liu, L.Wang, Y. Liu, J.-Y. Tian,C.-S. Liu*, M. Du*,“Tracking the Superefficient Anion Exchange of a Dynamic Porous Material Constructed by Ag(I) Nitrate and Tripyridyltriazole via Multistep Single-Crystal to Single-Crystal Transformations”,
Acs Appl. Mater. Interfaces2017,9, 7202?7208.
10C.-S. Liu,C.-X. Sun, J.-Y. Tian, Z.-W. Wang, H. Ji, Y. Song, S. Zhang, Z. Zhang*, L.-H. He, M. Du*, “Highly stable aluminum-based metal-organic frameworks as biosensing platforms for assessment of food safety”,
Biosens. Bioelectron.2017,91, 804–810.
11L. He, F. Duan, Y. Song, C. Guo, H. Zhao, J.-Y. Tian, Z. Zhang,C.-S. Liu*, X. Zhang, P. Wang, M. Du, S.-M. Fang, “2D zirconium-based metal-organic framework nanosheets for highly sensitive detection of mucin 1: consistency between electrochemical and surface plasmon resonance methods”,
2D Mater.2017,4,025098.
12C.-S. Liu, X.-G. Yang, M. Hu, M. Du*, S.-M. Fang*, “A structural paradigm for 3-periodic semiregular (4⁶.6⁹)-hxg net with high-symmetry hexagonal geometry, constructed from the linear [Cd₂NaO₆(H₂O)₆] SBUs and a flexible 6,6’-dithiodinicotinate linker”,
Chem. Commun.2012,48, 7459–7461.
13D.-M. Chen, J.-Y. Tian,C.-S. Liu*, M. Du*, “A bracket approach to improve the stability and gas sorption performance of a metal-organic framework via in situ incorporating the size-matching molecular building blocks”,
Chem. Commun.2016,52, 8413–8416.
14C.-S. Liu, Z.-H. Zhang, M. Chen, H. Zhao, F.-H. Duan, D.-M. Chen, M.-H. Wang, S. Zhang, M. Du*, “Pore modulation of zirconium–organic frameworks for high efficiency detection of trace protein”,
Chem. Commun.2017,53, 3941–3944.
15D.-M. Chen, J.-Y. Tian, Z.-W. Wang,C.-S. Liu*, M. Chen and M. Du* “An anionic Na(I)–organic framework platform: separation of organic dyes and post-modification for highly sensitive detection of picric acid”
Chem. Commun.2017,53, 10668–10671.
16M. Chen, H. Zhao,C.-S. Liu, X. Wang, H.-Z. Shi*, and M. Du*, “Template-directed construction of conformational supramolecular isomers for bilayer porous metal–organic frameworks with distinct gas sorption behaviors”,
Chem. Commun.2015,51, 6014–6017.
17Z. Zhang, H. Ji, Y. Song, S. Zhang, M. Wang, C. Jia Z. Zhang*, J.-Y. Tian, L. He, X. Zhang,C.-S. Liu*, “Fe(III)-based metal–organic framework-derived core–shell nanostructure: Sensitive electrochemical platform for high trace determination of heavy metal ions”,
Biosens. Bioelectron.2017,94, 358–364.
18F. Xu,* W.-F. Kang, Y. Wang,C.-S. Liu*J.-Y. Tian, R.-R. Zhao, and M. Du*“Rhodium(III)-Catalyzed Cascade [5 + 1] Annulation/5-exo-Cyclization Initiated by C-H Activation: 1,6-Diynes as One-Carbon Reaction Partners”,
Org. Lett.2018,20, 3245-3249.
19M. Chen, W.-M. Xu, J.-Y. Tian, H. Cui, J.-X. Zhang,C.-S. Liu*and M. Du*, “A terbium(III) lanthanide–organic framework as a platform for a recyclable multi-responsive luminescent sensor”,
J. Mater. Chem. C.2017,5, 2015–2021.
20D.-M. Chen, N.-N. Zhang,C.-S. Liu*and M. Du*, “Template-directed synthesis of a luminescent Tb-MOF material for highly selective Fe³⁺and Al³⁺ion detection and VOC vapor sensing”,
J. Mater. Chem. C .2017,5, 2311–2317.
21D.-M. Chen, C.-X. Sun, Y. Peng, N.-N. Zhang, H.-H. Si,C.-S. Liu*,?M. Du*, “Ratiometric fluorescence sensing and colorimetric decoding methanolby a bimetallic lanthanide-organic framework”,
Sensors and Actuators B2018,265, 104–109
22Z-H. Zhang, F.-H. Duan, J.-Y. Tian, J.-Y. He, L.-Y. Yang, H. Zhao, S. Zhang,C.-S. Liu*,L.-H. He, M. Chen, D.-M. Chen, and M. Du*, “Aptamer-Embedded Zirconium-Based Metal?Organic Framework Composites Prepared by De Novo Bio-Inspired Approach with Enhanced Biosensing for Detecting Trace Analytes”,
ACS Sens.2017,2, 982?989.
23. Su, S. Zhang, H. Ji, H. Zhao, J.-Y. Tian,C.-S. Liu,Z. Zhang*, S. Fang, X. Zhu, and M. Du* “Two-Dimensional Zirconium-Based Metal-Organic Framework Nanosheet Composites Embedded with Au Nanoclusters: A Highly Sensitive Electrochemical Aptasensor toward Detecting Cocaine”,
ACS Sens.2017,2, 998?1005.
24M. Du*, X. Wang, M. Chen, C.-P. Li, J.-Y. Tian, Z.-W. Wang,C.-S. Liu*, “Ligand Symmetry Modulation for Designing a Mesoporous Metal–Organic Framework: Dual Reactivity to Transition and Lanthanide Metals for Enhanced Functionalization”,
Chem. Eur. J.2015,21, 9713–9719.
25Z.-W. Wang, M. Chen,C.-S. Liu*, X. Wang, H. Zhao, M. Du*, “A Versatile Al^III-Based Metal–Organic Framework with High Physicochemical Stability”,
Chem. Eur. J.2015,21, 17215–17219.
26D.-M. Chen, J.-Y. Tian,C.-S. Liu*, M. Chen, and M. Du*, “Charge Control in Two Isostructural Anionic/Cationic Co^IICoordination Frameworks for Enhanced Acetylene Capture”,
Chem. Eur. J.2016,22, 15035–15041.
27C.-S. Liu, M. Chen, J.-Y. Tian, L. Wang, M. Li, S.-M. Fang,* X. Wang, L.-M. Zhou, Z.-W. Wang, and M. Du*, “Metal–Organic Framework Supported on Processable Polymer Matrix via In Situ Copolymerization for Enhanced Iron(III) Detection”,
Chem. Eur. J.2017,23, 3885–3890.
28B. Hu, J.-Y. Yuan, J.-Y. Tian, M. Wang, X. Wang, L. He, Z.-H. Zhang*, Z.-W. Wang,C.-S. Liu*, “Co/Fe-bimetallic organic framework-derived carbon-incorporated cobalt–ferric mixed metal phosphide as a highly efficient photocatalyst under visible light”,
J. Colloid Interf. Sci.2018,531, 148–159.
29F. Xu, X.-J. Si, Y.-Y. Song, X.-D. Wang,C.-S. Liu*, P.-F. Geng, and M. Du*, “Palladium-Catalyzed C?N Bond Cleavage of 2HAzirines for the Synthesis of Functionalized αAmido Ketones”,
J. Org. Chem.2019, 84, 2200–2208.
30D.-M. Chen, C.-X. Sun,C.-S. Liu,* and M. Du*, “stable Layered Semiconductive Cu(I)-Organic Framework forEfficient Visible-Light-Driven Cr(VI) Reduction and H2 Evolution”,
Inorg. Chem.2018,57,7975-7981
31“Lanthanide?Organic Coordination Frameworks Showing New 5Connected Network Topology and 3D Ordered Array of Single-Molecular Magnet Behavior in the Dy Case”,
Inorg. Chem.2014,53, 6708?6714.
32M. Du,* M. Chen, X. Wang, J. Wen, X.-G. Yang, S.-M. Fang, andC.-S. Liu*, “Versatile Mesoporous Dy^IIICoordination Framework for Highly Efficient Trapping of Diverse Pollutants”,
Inorg. Chem.2014,53, 7074?7076.
33M. Chen, H. Zhao, E. C. San?udo,C.-S. Liu*and M. Du*, “Two Isostructural Coordination Polymers Showing Diverse Magnetic Behaviors: Weak Coupling (Ni^II) and an Ordered Array of Single-Chain Magnets (Co^II)”,
Inorg. Chem.2016,55, 3715?3717.
34D.-M. Chen, J.-Y. Tian, andC.-S. Liu*, “Ligand Symmetry Modulation for Designing Mixed-Ligand Metal?Organic Frameworks: Gas Sorption and Luminescence Sensing Properties”,
Inorg. Chem.2016,55, 8892?8897.
35D.-M. Chen, N.-N. Zhang,C.-S. Liu*, Z.-H. Jiang, X.-D. Wang, and M. Du*, “A Mixed-Cluster Approach for Building a Highly Porous Cobalt(II) Isonicotinic Acid Framework: Gas Sorption Properties and Computational Analyses”,
Inorg. Chem.2017,56, 2379?2382.
36D.-M. Chen, N.-N. Zhang, J.-Y. Tian,C.-S. Liu*and M. Du*, “Quest for the Ncb-type Metal?Organic Framework Platform: A Bifunctional Ligand Approach Meets Net Topology Nee”,
Inorg. Chem.2017,56, 7328?7331.
37D.-M. Chen, X.-H. Liu, J.-Y. Tian, J.-H. Zhang,C.-S. Liu*, and M. Du*, “Microporous Cobalt(II)?Organic Framework with Open ODonor Sites for Effective C₂H₂Storage and C₂H₂/CO₂Separation at Room Temperature”,
Inorg. Chem.2017, 56, 14767?14770.
38D.-M. Chen, C.-X. Sun, N.-N. Zhang, H.-H. Si,C.-S. Liu*, and M. Du*, “Tunable Robust pacs-MOFs: a Platform for Systematic Enhancement of the C₂H₂Uptake and C₂H₂/C₂H₄Separation Performance”,
Inorg. Chem.2018, 57, 2883?2889.
39D. Shi, R. Zheng, C.-S. Liu*, D.-M. Chen, J. Zhao, and M. Du* “Dual-Functionalized Mixed Keggin- and Lindqvist-Type Cu₂₄-Based POM@MOF for Visible-Light-Driven H₂and O₂Evolution”,
Inorg. Chem.2019, doi/10.1021/acs.inorgchem.9b00206.
40C.-S. Liu, W. Guo, E. C. Sa?udo, M. Chen, M. Hu, M. Du and S.-M. Fang, “In situ syntheses, crystal structures and magnetic properties of Cu^IIand Mn^IIcoordination assemblies based on a novel heteroalicyclic dicarboxylate tecton and N-donor co-ligands”,
CrystEngComm.2012,14, 160–168.
41S.-M. Fang, M. Chen, X.-G. Yang, C. Wang, M. Du*,C.-S. Liu*, “An unusual (4,10)-connected 3-D metal–organic framework based on nonplanar tricarboxyl tecton and tetracadmium(II) secondary building units”,
CrystEngComm .2012,14, 5299–5304.
42J. Wen, X.-G. Yang, W. Guo,C.-S. Liu*, M. Du*, “A unique 3-D (3,18)-connected coordination framework based on a new type of {Zn₁₈} double-stranded metallacrown”,
CrystEngComm .2013,15, 10171–10174.
43D.-M. Chen, J.-Y. Tian, S.-M. Fang, andC.-S. Liu*,“Two isomeric Zn(II)-based metal-organic frameworks constructed from a bifunctional triazolate-carboxylate tecton exhibiting distinct gas sorption behaviors”,
CrystEngComm.2016, 18, 2579-2584.
44X. Wang, M. Hu, J.-Y. Tian,andC.-S. Liu*,“Structural diversification and single-crystal-to-single-crystal transformation of alkaline earth metal-based MOFs regulated by solvent effect”,
CrystEngComm.2016,18, 2864-2872.
45D.-M. Chen, J.-Y. Tian,C.-S. Liu*and M. Du*,“A Co^II-based metal–organic framework based on [Co₆(μ₃-OH)₄] units exhibiting selective sorption of C2H2 over CO₂and CH₄”,
CrystEngComm.2016,18, 3760-3763.
46L. He, C. Guo, Y. Song, S. Zhang, M. Wang,D. Peng, S. Fang. Z. Zhang,C.-S. Liu*, “Chitosan stabilized gold nanoparticle based electrochemical ractopamine immunoassay”,
Microchim Acta .2017,184, 2919-2924.
47B. Hu, Y. Liu, Z.-W. Wang, Y. Song, M. Wang, Z. Zhang,C.-S. Liu*, “Bimetallic-organicderived porous Co₃O₄/Fe₃O₄/C-loaded g-C₃N₄nanocomposites as non-enzymic electrocatalysis oxidization toward ascorbic acid, dopamine acid, and uric acid”,
Applied Surface Science2018,441, 694–707.
48X.-J. Zhang, F.-Z. Su, D.-M. Chen, Y. Peng, W.-Y. Guo,C.-S. Liu*, and M. Du*, “A water-stable EuIII-based MOF as a dual-emission luminescent sensor for discriminative detection of nitroaromatic pollutants”,
Dalton Trans.,2019,48, 1843–1849.
（二）代表性专利
1.刘春森,户敏,方少明,周立明,贾立然
1,2-萘二酸镉配合物及其制备方法
授权专利号：ZL4.1
2.刘春森,户敏,杨晓刚,方少明,荆晓艳,周立明,王聪
3,4-二(4'-羧基苯基)苯甲酸镉配合物及其制备方法
授权专利号：ZL3.7
3.刘春森,户敏,陈敏,方少明,周立明
6-硫烟酸镉配合物及制备方法
授权专利号：ZL1.1
4.刘春森,陈敏,赵辉,王熙,杜淼
具有广谱气体吸附性能的微孔钴配位聚合物及其制备方法
授权专利号：ZL8.0
5.刘春森,陈敏,王熙,赵辉,杜淼
选择性吸附微孔钴金属-有机骨架材料及其制备方法
授权专利号：ZL3 .1
6.刘春森,陈敏,杜淼,王卓伟,田稼越
“微孔铝基金属-有机骨架材料及其制备方法”
授权专利号：ZL5.0
7.刘春森,方少明,陈敏,杜淼,徐文明
“一种Cu(II)-Co(II)混金属配位聚合物、其制备方法与应用”
授权专利号：ZL8.9
8.刘春森,陈迪明,户敏,杜淼,田稼越
“一种微孔钴配位聚合物、其制备方法及应用”
授权专利号：ZL1.2
9.刘春森,陈敏，方少明，杜淼，王卓伟
“一种Fe( III )-Co( I，I )混金属配位聚合物、及其制备方法与应用”
授权专利号：ZL0.3
10.刘春森,杜淼，方少明，陈敏，户敏，周立明，李敏，王雷，王熙，王卓伟，田稼越
“一种金属-有机骨架配位聚合物复合材料及其制法与应用”
授权专利号：ZL9.0
（三）奖励
1.周立明刘春森高丽君吴诗德罗翔户敏闫福丰杨运成阮德谦李郤里
获奖项目名称：新颖结构的稀土有机配合物型转光剂的制备技术
奖励机构：河南省人民政府
奖励名称：河南省科技进步奖
奖励等级：二等奖
颁奖年份：2012年
本人证书编号：2012-J-79-R02/10
2.方少明杜淼刘春森李峰周立明肖元化户敏张爱勤赵继红高丽君刘东亮
获奖项目名称：多尺度功能复合材料的构筑及构效研究
奖励机构：河南省人民政府
奖励名称：河南省科技进步奖
奖励等级：二等奖
颁奖年份：2016年
本人证书编号：2016-J-73-R03/10
3.刘春森
奖励名称：河南省青年科技奖
（被授予河南省青年科技专家荣誉称号）
奖励机构：中共河南省委组织部河南省人力资源和社会保障厅
河南省科学技术协会
颁奖年份：2014年
（四）荣誉
河南省****
教育部新世纪人才
河南省青年科技专家
河南省科技创新杰出人才
河南省科技创新****
3.在研的项目
1.国家自然科学基金青年基金，**，基于大单体基质的稀土配合物复合体系的构筑和性能研究，2009/01-2011/12。
2.国家自然科学基金面上项目，**，功能化刚/柔骨架氮氧多齿配体的配位聚合物研究，2012/01-2015/12。
3.国家自然科学基金面上项目，**，功能介/微孔分子基材料的构筑和结构性能调控，2015/01-2018/12。
4.教育部“新世纪人才”支持计划，NCET-10-0143，新型刚/柔骨架多齿配体配位聚合物的构效研究，2011/01-2013/12。
5.河南省科技创新****基金，1**，基于定向组装的特殊骨架配体配位聚合物的构效研究，2011/01-2013/12。
6.河南省科技创新杰出人才计划，**1，新型多孔分子基材料的设计构筑与应用探索，2015/01-2017/12。
7.河南省高校科技创新团队20IRTSTHN003分子基多孔材料的表界面化学2020/01-2021/12

以上是天任考研为考生整理【郑州轻工业大学材料与化学工程学院研究生导师刘春森简介 郑轻刘春森老师学术背景】的相关信息，考生在备考过程中想要了解【报名要求，考试大纲，院校排名，热门专业，报考人数，职业规划，免费电子版复习资料，复试调剂】，可以在右侧窗口留言，会有老师一对一为大家答疑解惑，助力各位考生顺利进入理想院校。