2019-2020年实验室来访学术交流一览表
|
姓名 |
单位 |
国家/地区 |
报告题目 |
日期 |
1 |
Douglas W. Stephan |
University of Toronto |
Canada |
Expanding the FLP Reactivity Paradigm |
3.5 |
2 |
姜雪峰 |
华东师范大学 |
中国 |
有机合成绿色化学 |
3.11 |
3 |
VIKTOR V. ZHDANKIN | VIKTOR V. ZHDANKIN | Russia | Development of New Hypervalent Iodine Reagents | 3.15 |
4 |
Nicolas Mézailles |
Université Paul Sabatier |
France |
Dinitrogen Reduction at Molybdenum and Iron Centers: Mechanistic Investigations and Catalysis |
3.28 |
5 |
段 炼 |
清华大学 |
中国 |
有机发光二极管的载流子及激子调控研究 |
4.12 |
6 |
王 鹰 |
中国科学院理化技术研究所 |
中国 |
高性能热激活延迟荧光材料的设计及器件研究 |
4.12 |
7 |
Alexander Pöthig |
Technical University of Munich |
Germany |
Molecular architecture and engineering: Organometallocavitands as functional pores and building blocks |
4.19 |
8 |
Sensuke Ogoshi |
Osaka University |
Japan |
Nickel-catalyzed Asymmetric Synthesis of Hetero Cyclic Compounds with Multi-stereogenic Centers |
4.26 |
9 |
Donglin Jiang |
National University of Singapore |
Singapore |
The Chemistry of Covalent Organic Frameworks |
5.10 |
10 |
曾会应 |
兰州大学 |
中国 |
可再生资源木质素和光能的转化与利用 |
5.22 |
11 |
杨运桂 |
中国科学院北京基因组研究所 |
中国 |
Gene expression regulation by RNA Methylation |
6.6 |
12 |
Stefan Matile |
University of Geneva |
Switzerland |
Unorthodox Interactions, from Mechanophore to Cellular Uptake |
6.26 |
13 |
吴忠帜 |
台湾大学 |
台湾中国 |
Impacts of Molecular Optical Properties on External Quantum Efficiencies of Organic Light Emitting Devices |
7.4 |
14 |
Jieping Zhu |
Ecole Polytechnique Fédérale de Lausanne (EPFL) |
Switzerland |
Synthesis of Natural Product – Peganumine A |
7.5 |
15 |
Yitzhak Tor |
The University of California, San Diego |
USA |
From Antibiotics to Cellular Delivery Vehicles |
7.8 |
16 |
Shaozhong Ge |
National University of Singapore |
Singapore |
Cobalt-Catalyzed Hydrofunctionalization of Unsaturated Hydrocarbons |
7.10 |
17 |
Rylan J. Lundgren |
University of Alberta |
Canada |
Discovery, Mechanism, and Application of Chemoselective Cross-Coupling Reactions |
7.12 |
18 |
周建荣 |
北京大学深圳研究生院 |
中国 |
Asymmetric Heck Reaction |
9.5 |
19 |
Thomas Poisson |
Institut National des Sciences Appliquees de Rouen (INSA de Rouen) |
France |
Copper Mediated Difluoromethylation Reactions |
9.5 |
20 |
Frank Glorius |
University of Münster |
Germany |
On discovery in catalysi |
9.10 |
21 |
彭谦 |
中国科学院化学研究所 |
中国 |
有机发光过程的理论研究 |
9.24 |
22 |
Michael Mastalerz |
Ruprecht-Karls-Universität Heidelberg |
Germany |
Shape-Persistent Organic Cages and Capsules based on Triptycene and Tribenzotriquinacene |
10.09 |
23 |
Carmine Gaeta |
University of Salerno |
Italy |
Supramolecular Organocatalys is a Nanoconfined Space |
10.10 |
24 |
陆良秋 |
华中师范大学 |
中国 |
基于金属稳定偶极体的环化反应研究 |
10.18 |
25 |
Gregory C. Fu |
California Institute of Technology |
USA |
Nucleophilic Substitution Reactions: A Radical Alternative to SN1 and SN2 Reactions |
10.24 |
26 |
Peter J. Stang |
The University of Utah |
USA |
Abiological Self-Assembly: Predesighed Metallacycles and Metallacages Via Coordination |
11.6 |
27 |
Tomoki Ogoshi |
Kyoto University |
Japan |
Pillar-Shaped Macrocyclic Compounds “Pillar[n]arenes”: from Simple Molecular Receptors to Bulk Supramolecular Assemblies |
11.30 |
28 |
李桂根 |
南京大学 |
中国 |
GAP Chemistry and Multi-Layer 3D Chirality |
12.26 |
29 |
Seung Hwan Cho |
POSTECH |
Korea |
Catalytic Reactions of 1,1-Diborylalkanes and (Diborylmethyl)metallic Species |
1.10 (2020) |