学术带头人段春迎
主要从事功能有序体系的组装与识别研究。重点是通过探索识别过程弱相互作用的本质,构建具有特殊化学环境的仿生结构,实现识别过程在空间和能量的匹配,完成高立体选择性的仿生催化,研制和开发新型可视化生物标示技术和毒害物质的快速预警方法。已发表SCI论文140余篇,论文他引近3000次。

1.金属有机多面体的构筑及仿生传感与催化研究
2.分子基磁性材料以及分子纳米磁体的合成与性能研究
3.功能化MOFs的构筑及其在催化领域中的应用
4.基于金属有机超分子体系的小分子识别与光催化研究

1.Construction of metal organic polyhe...

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段春迎教授

段春迎教授 南京大学获博士学位
国家杰出青年基金获得者
教育部长江学者特聘教授
化工与环境生命学部副部长
精细化工国家重点实验室副主任
2010年获得国家杰出青年基金资助
国家自然科学基金委员会会评专家。

      从事无机-有机杂化材料的基础研究。承担自然科学基金委员会重大、重点项目,科技部 “973”课题 和教育部“长江学者与创新团队”支持计划多项国家级项目。近年来在Nature Commun.等国际刊物上发表SCI论文240余篇,论文被他引7500余次。获得国家自然科学二等奖 1 项,省部级一等奖 3 项。

      组建的"仿生识别与荧光传感" 研究团队 2012年度获教育部"长江学者与创新团队"支持计划资助。团队长期致力于面向无机化学学科的国际前沿、辐射精细化工领域国家需求的原创性基础研究。通过构建富含酰胺骨架螯合基团的金属-有机仿生结构,实现了对糖类等生物小分子的选择性识别与荧光响应,拓展出系列新型高灵敏度专一性敏感材料;利用金属中心的构型手性调配和诱导自发拆分过程,结合手性孔洞的约束性和催化中心的空间限制,发展系列高效、高立体选择性催化和光催化新材料。

Duan chun ying

PhD, Nan Jing University

Winner of national outstanding youth fund.

The Ministry of education of Yangtze River scholar Professor

Vice Minister of Chemical and Environmental Life Sciences

Deputy director of national key laboratory of fine chemical industry

Won the National Outstanding Youth Fund in 2010

Expert of the national natural science foundation.

Engaged in the basic research of inorganic - organic hybrid materials, To undertake a number of national projects supported by the "973" project of the major and key projects of the NSFC and the "Changjiang Scholar and Innovation Team" supported by the Ministry of Education.In recent years, he has published over 240 SCI papers in Nature Commun and other international journals, and cited more than 7,500 papers. Won the second prize of National Natural Science 1, provincial and ministerial level first prize 3.

 

The "biomimetic identification and fluorescence sensing" research team was funded in 2012 by the "Yangtze River Scholar and Innovation Team" supported by the Ministry of Education in 2012.The team has been committed to the original basic research on the international frontier of inorganic chemistry and the national demand in the fine chemical industry.By constructing a metal-organic bionic structure containing amide chelate groups, the selective recognition and fluorescence response of small biological molecules such as carbohydrates are achieved, and a series of new high sensitive and sensitive materials are developed.Using the configuration of chiral metal center deployment and induced spontaneous resolution process, the combination of chiral hole space constraints, binding, and catalytic center development series high efficiency, high stereoselectivity catalytic and photocatalysis of new materials.