刘庆燕,男,教授,博士生导师。
2007年3月博士毕业于中科院福建物质结构研究所。2007年7月到2008年7月在荷兰Leiden University化学研究所做博士后研究。2008年8月作为海外高层次人才引进到江西师大化学化工学院工作。
主要从事多孔配位聚合物材料(即MOF材料)(二氧化碳捕获和储能材料,工业气体分离材料),稀土荧光传感材料,稀土磁性材料以及功能晶态材料的研究,到目前为止,已经在国内外期刊上发表SCI论文80多篇,其中的60多篇为通讯作者或第一作者。到江西师大工作以来以通讯作者在美国化学会的Inorganic Chemistry(二级学科无机化学领域最权威期刊)和Crystal Growth Design以及英国皇家化学会的Inorganic Chemistry Frontiers,Dalton Transaction和Dyes and Pigments等国际主流权威期刊上发表过论文。论文得到了同行的高度正面评价,被他人引用次数已经达到1200多次,其中2005表于CrystEngComm期刊上的论文入选了该期刊1999-2008间引用率最高的十篇论文(包括综述)之一,也是唯一来自中国学者的论文。现为美国Inorg.Chem., ACS App. Mater. & Inter.和Cryst. Growth & Des.及欧洲Chem.Commun.,Dalton Trans.,Inorg. Chem. Front.,J. Mater. Chem. A, J. Mater. Chem. C.和CrystEngComm等国际期刊的审稿人。
主持了3项国家自然科学基金和多项省级项目;获得了2015年度江西省自然科学奖二等奖;入选了江西省青年科学家培养对象;入选了江西省高校骨干教师;2次获得校科研先进个人;所指导的研究生获得过国家奖学金和优秀毕业生的称号。
招生学科方向:无机化学;物理化学。
研究领域:
1. 温室气体二氧化碳的捕获、工业气体分离和储能多孔材料(MOF材料);
2. 稀土荧光传感材料和稀土磁性材料;
3. 功能晶体材料(燃料电池质子传导材料、手性和铁电固体材料)。
联系方式:
Tel: 0791-88336372; E-mail: qyliuchem@jxnu.edu.cn
课题组网页:http://liu.jxnu.edu.cn/
主持的科研项目:
国家自然科学基金3项,教育部留学回国人员科研启动基金1项,
江西省自然科学基金2项,江西省教育厅科技项目2项,
配位化学国家重点实验室基金和结构化学国家重点实验室基金各1项。
江西省自然科学基金重点项目1项。
代表性成果(*代表通讯作者)
1.刘庆燕,王玉玲,姜昀良,以结构为导向构筑的二阶非线性光学和稀土光磁功能配位聚合物材料,江西省自然科学奖二等奖。
2. Yun-Jian Li, Yu-Ling Wang,* and Qing-Yan Liu*, The Highly Connected MOFs Constructed from Nonanuclear and Trinuclear Lanthanide-Carboxylate Clusters: Selective Gas Adsorption and Luminescent pH Sensing, Inorganic Chemistry, 2017, 56, 2159–2164.
3. Hui-Fang Ma, Qing-Yan Liu,* Yu-Ling Wang,* and Shun-Gao Yin, A Water-Stable Anionic Metal?Organic Framework Constructed from Columnar Zinc-Adeninate Units for Highly Selective Light Hydrocarbon Separation and Efficient Separation of Organic Dyes, Inorganic Chemistry, 2017, 56, 2919–2925.
4.Li-Juan Zhou,# Wei-Hua Deng,# Yu-Ling Wang*, Gang Xu, Shun-Gao Yin, Qing-Yan Liu*, Lanthanide-Potassium-Biphenyl-3,3'-disulfonyl-4,4'-di carboxylate Frameworks: Gas Sorption, Proton Conductivity, and Luminescent Sensing of Metal Ions, Inorganic Chemistry, 2016, 55, 6271–6277.
5.Yu-Ling Wang*, Lin Chen, Cai-Ming Liu, Yi-Quan Zhang, Shun-Gao Yin, and Qing-Yan Liu*, Field-Induced Slow Magnetic Relaxation and Gas Adsorption Properties of a Bifunctional Cobalt(II) Compound, Inorganic Chemistry, 2015, 54, 11362–11368.
6.Qing-Yan Liu*, Wei-Lu Xiong, Cai-Ming Liu, Yu-Ling Wang, Jia-Jia Wei, Zuo-Juan Xiahou, and Li-Hua Xiong, Chiral Induction in the Ionothermal Synthesis of a 3D Chiral Heterometallic Metal–organic Framework Constructed from Achiral 1, 4-Naphthalenedicarboxylate, Inorganic Chemistry, 2013, 52, 6773–6775.
7.Qing-Yan Liu*, Wu-Fang Wang, Yu-Ling Wang, Zeng-Mei Shan, Ming-Sheng Wang, and Jinkui Tang*, Diversity of Lanthanide(III)-Organic Extended Frameworks with a 4,8-Disulfonyl-2,6-naphthalenedicarboxylic Acid Ligand: Syntheses, Structures, and Magnetic and Luminescent Properties, Inorganic Chemistry, 2012, 51, 2381–2392.
8. Yu-Ling Wang, Jiang-Hong Fu, Jia-Jia Wei, Xiang Xu, Xin-Fa Li and Qing-Yan Liu*, Noncentrosymmetric Organic Compound and Its Zinc Coordination Polymer with Diamond Network Prepared from an Ionothermal Reaction: Syntheses, Crystal Structures, and Second-order Nonlinear Optics Properties, Crystal Growth Design, 2012, 12, 4663–4668.
9.Qing-Yan Liu*, Yu-Ling Wang, Na Zhang, Yun-Liang Jiang, Jia-Jia Wei, and Feng Luo, Spontaneous Resolution in the Ionothermal Synthesis of Homochiral Zn(II) Metal-Organic Frameworks with (10,3)-a Topology Constructed from Achiral 5-Sulfoisophthalate, Cryst. Growth & Des., 2011, 11, 3717–3720.
10. Yu-Ling Wang, Na Zhang, Qing-Yan Liu*, Zeng-Mei Shan, Rong Cao, Ming-Sheng Wang, Jun-Jian Luo, and Er-Lei Yang, Diversity of Architecture of Copper(I) Coordination Polymers Constructed of Copper(I) Halides and 4-Methyl-1,2,4-Triazole-3-Thiol (Hmptrz) Ligand: Syntheses, Structures, and Luminescent Properties, Crystal Growth & Design, 2011, 11, 130–138.
11. Yu-Ling Wang, Lin Chen, Cai-Ming Liu, Zi-Yi Du, Li-Li Chen, and Qing-Yan Liu*, 3D chiral and 2D achiral cobalt(II) compounds constructed from a 4-(benzimidazole-1-yl)benzoic ligand exhibiting field-induced single-ion-magnettype slow magnetic relaxation, Dalton Transactions, 2016, 45, 7768–7775.
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