王恒
发布时间:2021-09-17 18:52:03
l工作与教育经历
2020/04 - 至今,深圳大学,化学与环境工程学院,副教授
2016/08 - 2020/01,美国南佛罗里达大学,化学学院,博士后研究员
2016/04 - 2016/08,美国德克萨斯州立大学,化学与生物化学学院,博士后研究
2015/01 - 2016/03,日本北海道大学,触媒科学研究所,博士后研究员
2009/09 - 2015/01,北京大学,化学与分子工程学院,硕博连读,获理学博士学位
2005/09 - 2009/06,北京大学,化学与分子工程学院,本科,获学士学位
l个人简介
王恒, 男,博士,副教授。2009年于北京大学化学与分子工程学院获学士学位;2015年于北京大学化学与分子工程学院获理学博士学位; 2015年到2016年于日本北海道大学从事博士后工作;2016年美国德克萨斯州立大学从事博士后工作;2016年到2020年于美国南佛罗里达大学从事博士后工作;2020到至今,任深圳大学化学与环境工程学院副教授。近五年内共发表SCI论文40余篇,其中第一作者(含共同)和共同通讯作者论文15篇,包括J. Am. Chem. Soc. (5), Angew. Chem. Int. Ed. (1), Nat. Commun. (2),Nature Rev. Mater. (1)。
l研究方向
1. 新颖结构配位超分子的构筑与表征
本课题利用多重配位键自组装策略,通过探索新的合成方法(例如配体合成-自组装一锅法),并结合多维度质谱、核磁和扫描隧道显微镜表征构筑更多结构新颖、复杂程度高的配位超分子化合物。
2. 配位超分子在基底和溶液中的分级自组装行为及其应用研究
该课题以配位超分子在基底和溶液中的分级自组装行为研究为起点,利用AFM/STM/TEM等成像手段深入了解其机理,并逐步开展分级组装体作为纳米导线、纳米反应器、跨(细胞膜)离子传输通道等方面的应用。
3. 配位超分子在抗菌、催化等领域中的应用研究
本课题利用配位超分子独特的带电性、可控的分级自组装行为、丰富的主客体效应以及良好的可修饰性,探索配位超分子在抗菌、催化等方面的应用。
l代表性论文
1. Wang, H.;# Wang, K.;# Xu, Y.;# Wang, W.;# Chen, S.; Hart, M.; Wojtas, L.; Zhou, L.-P.; Gan, L.; Yan, X.; Li, Y.; Lee, J.; Ke, X.-S.; Wang, X.-Q.; Zhang, C.-W.; Zhou, S.; Zhai, T.; Yang, H.-B.; Wang, M.; He, J.; Sun, Q.-F.; Xu, B.; Jiao, Y.; Stang, P. J.; Sessler, J. L.;* Li, X.;* Hierarchical Self-Assembly of Nanowires on the Surface by Metallo-Supramolecular Truncated Cuboctahedra, J. Am. Chem. Soc., 2021, 143, 5826-5835 (#: equal contribution to the work).
2. Wang, H.; Zhou, L.-P.; Zheng, Y.; Wang, K.; Song, B.; Yan, X.; Wojtas, L.; Wang, X.-Q.; Jiang, X.; Wang, M.; Sun, Q.-F.; Xu, B.; Yang, H.-B.; Sue, A. C.-H.; Chan, Y.-T.; Sessler, J. L.; Jiao, Y.; Stang, P.J.; Li, X.* Double-layered supramolecular prisms self-assembled by geometrically non-equivalent tetratopic subunits. Angew. Chem. Int. Ed., 2021, 60, 1298-1305.
3. Wang, H.; Li, Y.; Li, N.; Filosa, A.; Li, X.;* Increasing the size and complexity of discrete 2D metallosupramolecules. Nature Rev. Mater. 2021, 6, 145-167.
4. Wang, L., Song, B., Khalif, S., Li, Y., Ming, L.-J., Bai, S., Xu, Y., Yu, H., Wang, M., Wang, H.,* Li, X.* Introducing Seven Transition Metal Ions into Terpyridine-Based Supramolecules: Self-Assembly and Dynamic Ligand Exchange Study, J. Am. Soc. Chem., 2020, 142, 1811-1821.
5. Wang, H.;# Liu, C.-H.;# Wang, K.; Wang, M.; Yu, H.; Kandapal, S.; Brzozowski, R.; Xu, B.; Wang, M.; Eswara, P.; Nieh, M.-P.;* Cai, J.;* Li, X.* Assembling pentatopic terpyridine ligand into giant supramolecular hexagonal prism with three types of coordination moieties: Synthesis, self-assembly, characterization, and antimicrobial study. J. Am. Chem. Soc., 2019, 141, 16108-16116 (#: equal contribution to the work).
6. Wang, H.; Li, Y.; Yu, H.; Song, B.; Lu, S.; Hao, X.-Q.; Zhang, Y.; Wang, M.; Hla, S.-W.; Li, X.* Combining synthesis and self-Assembly in one pot to construct complex 2D metallo-supramolecules using terpyridine and pyrylium salts. J. Am. Chem. Soc., 2019, 141, 13187-13195.
7. Wang, H.;# Qian, X.;# Wang, K.; Su, M.; Haoyang, W.-W.; Jiang, X.; Brzozowski, R.; Wang, M.; Gao, X.; Li, Y.; Xu, B.; Eswara, P.; Hao, X.-Q.; Gong, W.;* Hou, J.-L.;* Cai, J.;* Li, X.* Supramolecular Kandinsky circles with high antibacterial activity. Nature Commun., 2018, 9, 1815 (#: equal contribution to the work).
8. Yin, G.-Q.;# Wang, H.;# Wang, X.-Q.; Song, B.; Chen, L.-J.; Wang, L.; Hao, X.-Q.; Yang, H.-B.;* Li, X.* Self-assembly of emissive supramolecular rosettes with increasing complexity using multitopic terpyridine ligands. Nature Commun., 2018, 9, 567 (#: equal contribution to the work).
9. Zhang, Z.;# Wang, H.;# Wang, X.; Li, Y.; Song, B.; Bolarinwa, O.; Reese, R. A.; Zhang, T.; Wang, X.-Q.; Cai, J.; Xu, B.; Wang, M.;* Liu, C.;* Yang, H.-B.; Li, X.* Supersnowflakes: Stepwise self-assembly and dynamic exchange of rhombus star-shaped supramolecules. J. Am. Chem. Soc., 2017, 139, 8174–8185 (#: equal contribution to the work).
10. Tang, J.-H., Ni R., He, Y.-Q., Vanderlinden, R. T., Li Y., Shi, B., Li Z.-Y., Wang, H.,* Li, X., Sun, Y.,* Zhong, Y.-W.,* Stang, P. J.*, Metal–Organic Pt(II) Hexagonal-Prism Macrocycles and Their Photophysical Properties, Inorg. Chem., 2019, 58, 13376-13381.
11. Gu, Y.; Alt, E. A.; Wang, H.; Li, X.; Willard, A. P.; Johnson, J. A.* Photoswitching topology in polymer networks with metal–organic cages as crosslinks. Nature, 2018, 560, 65–69.
12. Zhang, Z., Wang, H., Shi, J., Xu, Y., Wang, L., Shihadeh, S., Zhao, F.-J., Hao, X.-Q., Wang, P., Liu, C., Wang, M.*, Li, X.*, Stepwise Self-Assembly and Dynamic Exchange of Supramolecular Nanocages Based on Terpridine Building Blocks. Invited Contribution, Macromol. Rapid Commun., 2018, 39, 1800404.
13. .Zhang, Z., Wang, H., Shi, J. Wang, P., Liu, C., Wang, M.*, Li, X.*, Stepwise Self–Assembly and Dynamic Exchange of Supramolecular Snowflakes Isr. J. Chem., 2018, 58, 1–12.
14. Wang, H., Wang, Y., Ye, X., Hayama, H., Sugino, H., Nakano, H., Nakano, T.*, π-Stacked Poly(vinyl Ketone)s with Accumulated Push–Pull Triphenylamine Moieties in the Side Chain, Polym. Chem., 2017, 8, 708-714.
15. Wang, H.; Pietropaolo, A., Wang, W., Chou, C., Hisaki, I., Tohnai, N., Miyata, M., Nakano, T.*, Right-handed 2/1 Helical Arrangement Benzene Molecules in Cholic Acid Crystal Established by Experimental and Theoretical Circular Dichroism Spectroscopy, RSC Adv., 2015, 5, 101110-101114.
16. Wang, H.; Li, N.; Yan, Z.; Zhang, J.; Wan, X.*, Synthesis and Property of a Novel Cu(II)−pyridineoxazoline Containing Polymeric Catalyst for Asymmetric Diels−Alder Reaction , RSC Adv., 2015, 5, 2882-2890.
17. Wang, H.; Li, N.; Zhang, J.; Wan, X.*, Synthesis and Properties of a Novel Pyridineoxazoline Containing Optically Active Helical Polymer as a Catalyst Ligand for Asymmetric D-A Reaction , Chirality, 2015, 27, 523-531.
18. Wang, H.; Li, N.; Zhang, J.; Wan, X.*, Synthesis and Property of Novel Helical 3-Vinylpyridine Polymers Containing Proline Moieties for Asymmetric Aldol Reaction, RSC Adv., 2015, 5, 52410-52419.
