方园 教授

发布时间:2022-10-05访问量:16182设置



方园

教授 博士生导师


办公室:909-3605

办公电话:0512-65880353

2006-2011:加拿大康考迪亚大学,生物化学学院,生物化学专业,理学学士学位;

2011-2013:加拿大康考迪亚大学,生物化学学院,理学硕士学位(导师: Prof. Louis Cuccia

2013-2017:比利时天主教鲁汶大学,化学学院,理学博士学位 (导师: Prof. Steven De Feyter);

2017-2020:加拿大麦吉尔大学,化学学院,博士后 (导师: Prof. Dima Perepichka);

2021-至今:加盟www.优德88.cpm 功能纳米与软物质研究院,教授,博士生导师

研究领域:

长期从事表面化学、材料化学领域的研究工作。使用扫描探针显微镜(SPM)研究表面手性放大机制;表面动力学;表面可控自组装,揭示表面分子组装的结构-功能关系;表面原位化学反应;二维聚合物的表面反应制备等方向的基础研究。同时在材料化学领域设计开发一系列新型有机π共轭导电材料,研究其在感应材料,场效应晶体管和电池等方面的应用。

主要成果和荣誉:

以第一作者在《Nat. Chem.》《J. Am. Chem. Soc.》《Chem. Sci.》等化学领域权威期刊杂志上发表论文9目前为止已发表SCI收录论文20其中影响因子大于6的有17多篇论文被选为期刊的封面文章。在国际学术会议上作特邀报告,获得最佳演讲奖。在康考迪亚大学固体表面和界面高级专业课上担任客座教授。以全国综合排名女性第一荣获加拿大自然科学与工程研究委员会(NSERC)博士后奖学金。201911月获得加拿大皇家科学院最高荣誉之一的Alice Wilson奖,由此被收录于麦吉尔大学荣誉学者名单,成为麦吉尔大学建校一百多年来化学系第25位荣誉学者:

https://www.mcgill.ca/researchhonours/people/field_mprofile_department/Department%2520of%2520Chemistry

奖学金:

04/2021-03/2022FQRNT Postdoctoral Research Scholarship (由于回国任职未领取)

04/2019-03/2021NSERC Postdoctoral Fellowships Award

11/2015-10/2016FQRNT Internship Scholarship

01/2013-03/2013MELS Student Mobility Bursary

01/2013-03/2013FQRNT International Internship Scholarship

05/2009-08/2009CSACS Undergraduate Summer Research Scholarship

论文(*通讯作者,#共同第一作者):

1.Fang, Y.; Ghijsens, E.; Ivasenko, O.*; Cao, H.; Noguchi, A.; Mali, K. S.*; Tahara, K.; Tobe, Y.*; De Feyter, S.*, Dynamic control over supramolecular handedness by selecting chiral induction pathways at the solution–solid interface.Nat. Chem.2016,8(7), 711-717.

2. Fang, Y.; Lindner, B. D.; Destoop, I.; Tsuji, T.; Zhang, Z.; Khaliullin, R. Z.; Perepichka, D. F.; Tahara, K.; Feyter, S. D.*; Tobe, Y.*, Stereospecific Epitaxial Growth of Bilayered Porous Molecular Networks.J. Am. Chem. Soc.2020,142(19), 8662-8671.

3.Jadhav, T.#;Fang, Y.#; Liu, C. H.#; Dadvand, A.; Hamzehpoor, E.; Patterson, W.; Jonderian, A.; Stein, R. S.; Perepichka, D. F.*, Transformation between 2D and 3D Covalent Organic Frameworks via Reversible 2+2 Cycloaddition.J. Am. Chem. Soc.2020,142(19), 8862-8870.

4. Sun, K.;Fang, Y.; Chi, L.*, On-Surface Synthesis on Nonmetallic Substrates.ACS Mater. Lett.2021,3(1), 56-63.

5. Lakshmi, V.; Liu, C.-H.; Rajeswara Rao, M.; Chen, Y.;Fang, Y.; Dadvand, A.; Hamzehpoor, E.; Sakai-Otsuka, Y.; Stein, R. S.; Perepichka, D. F.*, A Two-Dimensional Poly(azatriangulene) Covalent Organic Framework with Semiconducting and Paramagnetic States.J. Am. Chem. Soc.2020,142(5), 2155-2160.

6. Mulay, S. V.#; Dishi, O.#;Fang, Y.#; Niazi, M. R.; Shimon, L. J. W.; Perepichka, D.*; Gidron, O.*, A Macrocyclic Oligofuran: Synthesis, Solid State Structure and Electronic Properties.Chem. Sci.2019,10(37), 8527-8532.

7. Jadhav, T.;Fang, Y.; Patterson, W.; Liu, C.-H.; Hamzehpoor, E.; Perepichka, D. F.*, 2D Poly(arylene vinylene) Covalent Organic Frameworks via Aldol Condensation of Trimethyltriazine.Angew. Chem., Int. Ed.2019,58(39), 13753-13757.

8. Cui, D.#;Fang, Y.#; MacLean, O.; Perepichka, D. F.*; Rosei, F.*; Clair, S.*, Covalent organic frameworks from a monomer with reduced symmetry: polymorphism and Sierpiński triangles.Chem. Commun.2019,55(90), 13586-13589.

9. Fang, Y.; Tahara, K.; Ivasenko, O.; Tobe, Y.; De Feyter, S.*, Structural Insights into the Mechanism of Chiral Recognition and Chirality Transfer in Host–Guest Assemblies at the Liquid–Solid Interface.J. Phys. Chem. C.2018,122(15), 8228-8235.

10. Sanz-Matias, A.*; Ivasenko, O.;Fang, Y.; De Feyter, S.; Tahara, K.; Tobe, Y.; Harvey, J. N.*, Computational insight into the origin of unexpected contrast in chiral markers as revealed by STM.Nanoscale2018,10(4), 1680-1694.

11. Goronzy, D. P.; Ebrahimi, M.; Rosei, F.; Arramel;Fang, Y.; De Feyter, S.; Tait, S. L.; Wang, C.; Beton, P. H.; Wee, A. T. S.; Weiss, P. S.*; Perepichka, D. F.*, Supramolecular Assemblies on Surfaces: Nanopatterning, Functionality, and Reactivity.ACS Nano2018,12(8), 7445-7481.

12. Fang, Y.; Cibian, M.; Hanan, G. S.; Perepichka, D. F.; De Feyter, S.; Cuccia, L. A.*; Ivasenko, O.*, Alkyl chain length effects on double-deck assembly at a liquid/solid interface.Nanoscale2018,10(31), 14993-15002.

13. Rao, M. R.;Fang, Y.; De Feyter, S.; Perepichka, D. F.*, Conjugated Covalent Organic Frameworks via Michael Addition-Elimination.J. Am. Chem. Soc.2017,139(6), 2421-2427.

14. Kynaston, E. L.;Fang, Y.; Manion, J. G.; Obhi, N. K.; Howe, J. Y.; Perepichka, D. F.*; Seferos, D. S.*, Patchy Nanofibers from the Thin Film Self-Assembly of a Conjugated Diblock Copolymer.Angew. Chem., Int. Ed.2017,56(22), 6152-6156.

15. McKeown, G. R.;Fang, Y.; Obhi, N. K.; Manion, J. G.; Perepichka, D. F.*; Seferos, D. S.*, Synthesis of Macrocyclic Poly(3-hexylthiophene) and Poly(3-heptylselenophene) by Alkyne Homocoupling.ACS Macro Letters2016,5(10), 1075-1079.

16. Lee, S.-L.;Fang, Y.; Velpula, G.; Cometto, F. P.; Lingenfelder, M.; Müllen, K.; Mali, K. S.*; De Feyter, S.*, Reversible Local and Global Switching in Multicomponent Supramolecular Networks: Controlled Guest Release and Capture at the Solution/Solid Interface.ACS Nano2015,9(12), 11608-11617.

17. Lee, S.-L.; Adisoejoso, J.;Fang, Y.; Tahara, K.; Tobe, Y.; Mali, K. S.*; De Feyter, S.*, Efficient screening of 2D molecular polymorphs at the solution-solid interface.Nanoscale2015,7(12), 5344-5349.

18. Ghijsens, E.; Cao, H.; Noguchi, A.; Ivasenko, O.;Fang, Y.; Tahara, K.*; Tobe, Y.*; De Feyter, S.*, Towards enantioselective adsorption in surface-confined nanoporous systems.Chemical Communications2015,51(23), 4766-4769.

19. Fang, Y.; Salame, N.; Woo, S.; Bohle, D. S.; Friscic, T.*; Cuccia, L. A.*, Rapid and facile solvent-free mechanosynthesis in a cell lysis mill: preparation and mechanochemical complexation of aminobenzoquinones.CrystEngComm2014,16(31), 7180-7185.

20. Fang, Y.; Nguyen, P.; Ivasenko, O.; Aviles, M. P.; Kebede, E.; Askari, M. S.; Ottenwaelder, X.; Ziener, U.; Siri, O.; Cuccia, L. A.*, Charge-assisted hydrogen bond-directed self-assembly of an amphiphilic zwitterionic quinonemonoimine at the liquid-solid interface.Chem. Commun.2011,47(40), 11255-11257.

招聘信息:

招募具有以下或之一研究经历的博士后研究员,熟练使用Materials studio者优先考虑,将提供极具竞争力的薪酬,将为优秀的博士后研究员提供出国访学的机会:

· 原子力显微镜(AFM

· 扫描隧道显微镜(STM

· 具有表界面研究专业背景

· COFMOF材料制备和应用

欢迎对表界面纳米技术感兴趣的、具有相关物理、材料、化学科学背景的本科、硕士、博士研究生加入课题组。有意者请将简历发送至yfang2000@suda.edu.cn

责任编辑:杨娟


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