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Rafal Klajn 博士学术报告(2016-11-9)
发布人: 发布时间:2016-11-09 浏览次数:59
以色列 Weizmann Institute of Science 的 Rafal Klajn 博士将到访科大并做学术报告,具体安排如下:
报告题目:New Dynamic Materials Responsive to Light, CO2, and Magnetic Fields     
报告时间:11月9日(周三)上午10:00
报告地点:环资楼939会议室
 
Rafal Klajn 博士的简介见附件。
欢迎感兴趣的老师参加,并请通知课题组感兴趣的同学参加!
 
 
 

Rafal Klajn

Associate Professor

The Weizmann Institute of Science • Department of Organic Chemistry
234 Herzl St., Rehovot, 76100 Israel
Telephone: +972-8-934-6567
Email: rafal.klajn@weizmann.ac.il
Web: http://www.weizmann.ac.il/oc/Rafal/
 
 
Education
Northwestern University 08/2004 - 10/2009
Ph.D. in Chemical & Biological Engineering
(with Profs. B. A. Grzybowski and Sir J. F. Stoddart)
University of Warsaw 09/2001 - 07/2004
Undergraduate studies and M.Sc. in Chemistry, Summa cum Laude

Research Interests
• Molecular switches
• Nanoscale self-assembly
• Supramolecular chemistry
• Stimuli-responsive nanomaterials
• Chemical reactivity in confined spaces

Publications (selected from a total of 52)
1. H. Zhao, S. Sen, T. Udayabhaskararao, M. Sawczyk, K. Kučanda, D. Manna, P. K. Kundu, J.-W. Lee, P. Král, R. Klajn*. Reversible occlusion and reaction acceleration within dynamically self-assembling nanoflasks, Nature Nanotech. 2016, 11, 82–88.
2. P. K. Kundu, D. Samanta, R. Leizrowice, B. Margulis, H. Zhao, M. Börner, T. Udayabhaskararao, D. Manna, R. Klajn*. Light-controlled self-assembly of non-photoresponsive nanoparticles, Nature Chem. 2015, 7, 646–652.
3. D. Manna, T. Udayabhaskararao, H. Zhao, R. Klajn*. Orthogonal self-assembly of nanoparticles using differently substituted azobenzenes, Angew. Chem. Int. Ed. 2015, 54, 12394–12397.
4. G. Singh, H. Chan, A. Baskin, E. Gelman, N. Repnin, P. Král*, R. Klajn*. Self-assembly of magnetite nanocubes into helical superstructures, Science 2014, 345, 1149–1153.
5. P. K. Kundu, G. L. Olsen, V. Kiss, R. Klajn*. Nanoporous frameworks exhibiting multiple stimuli responsiveness, Nature Commun. 2014, 5, 3588.
6. T. Zdobinsky, P. S. Maiti, R. Klajn*. Support curvature and conformational freedom control chemical reactivity of immobilized species, J. Am. Chem. Soc. 2014, 136, 2711–2714.
7. S. Das, P. Ranjan, P. S. Maiti, G. Singh, G. Leitus, R. Klajn*. Dual-responsive nanoparticles and their selfassembly, Adv. Mater. 2013, 25, 422–426.
8. O. Chovnik, R. Balgley, J. R. Goldman, R. Klajn*. Dynamically self-assembling carriers enable guiding of diamagnetic particles with weak magnets, J. Am. Chem. Soc. 2012, 134, 19564–19567.
9. R. Klajn, M. A. Olson, P. J. Wesson, L. Fang, A. Coskun, A. Trabolsi, S. Soh, J. F. Stoddart*, B. A. Grzybowski*. Dynamic hook-and-eye nanoparticle sponges, Nature Chem. 2009, 1, 733–738.
10. R. Klajn, L. Fang, A. Coskun, M. A. Olson, P. J. Wesson, J. F. Stoddart*, B. A. Grzybowski*. Metal nanoparticles functionalized with molecular and supramolecular switches, J. Am. Chem. Soc. 2009, 131, 4233–4235.
11. R. Klajn, K. J. M. Bishop, M. Fialkowski, M. Paszewski, C. J. Campbell, T. P. Gray, B. A. Grzybowski*. Plastic and moldable metals by self-assembly of sticky nanoparticle aggregates, Science 2007, 316, 261–264.
12. R. Klajn, K. J. M. Bishop, B. A. Grzybowski*. Light-controlled self-assembly of reversible and irreversible nanoparticle suprastructures, Proc. Natl. Acad. Sci. USA 2007, 104, 10305–10309.

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