Franklin J. Kim 副教授、研究员

时间:2017-11-26浏览:18设置

研究方向Nanochemistry, Self-assembly
联系方式fkim@shanghaitech.edu.cn
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教育背景

2017.9 – current, Associate professor, ShanghaiTech University, School of Physical Science and Technology

2015 – 2017, Program specific associate professor, Kyoto University, Institute for Integrated Cell-Material Sciences

2010 – 2015, Program specific assistant professor, Kyoto University, Institute for Integrated Cell-Material Sciences

2007 – 2010, Postdoctoral researcher, Northwestern University, Dept. of Materials Science and Engineering (Advisor: Prof. Jiaxing Huang)

2005 – 2007, Postdoctoral researcher, UC Berkeley, Dept. of Bioengineering (Advisor: Prof. Luke P. Lee)

1999 – 2005, Ph. D. researcher, UC Berkeley, Dept. of Chemistry (Advisor: Prof. Peidong Yang)

1996 - 1999, B.S., Seoul National University, Dept. of Chemistry


研究先容

Our group is interested in using various nanomaterials as building blocks for constructing novel functional structures, either through chemical synthesis or self-assembly. We focus on developing strategies which will allow precise control over the property and functionality of the produced structures. Specific topics include 

1. Shape-controlled synthesis of nanoparticles

2. Functionalization of nanoparticle via surface modification

3. Preparation of graphene-based nanostructures via interfacial assembly

4. Self-assembly of nanomaterials at liquid-liquid and air-liquid interfaces


科研成果

1. ‘Three-dimensional reduced graphene oxide/polyaniline nanocomposite film prepared by diffusion driven layer-by-layer assembly for high-performance supercapacitors’, J. Power Sources 2017, 343, 60.

2. ‘Application of diffusion-driven layer-by-layer assembly for fabricating compact graphene-based supercapacitors’, Adv. Mater. Interfaces 2016, 3, 1600260.

3. ‘Diffusion driven layer-by-layer assembly of graphene oxide nanosheets into porous three-dimensional macrostructures’, Nat. Commun. 2014, 6254.

4. ‘Self-assembly of two-dimensional nanosheets induced by interfacial polyionic complexation’, ACS Nano 2012, 6, 10606.

5. ‘Self-propagating domino-like reactions in oxidized graphite’ Adv. Funct. Mater. 2010, 20, 2867.

6. ‘Graphene oxide: Surface activity and two-dimensional assembly’ Adv. Mater. 2010, 22, 1954.

7. ‘Construction of evolutionary tree for morphological engineering of nanoparticles’, ACS Nano 2009, 3, 2191.

8. ‘Langmuir-Blodgett assembly of graphite oxide single layers’, J. Am. Chem. Soc. 2009, 131, 1043.

9. ‘Chemical synthesis of gold nanowires in acidic solutions’, J. Am. Chem. Soc. 2008, 130, 14442.

10. ‘Spontaneous formation of nanoparticle stripe patterns through dewetting’, Nat. Mater. 2005, 4, 896.

11. ‘Platonic gold nanocrystals’ Angew. Chem., Int. Ed. 2004, 43, 3673.

12. ‘Photochemical synthesis of gold nanorods’, J. Am. Chem. Soc. 2002, 124, 14316.

13. ‘Langmuir-Blodgett nanorod assembly’, J. Am. Chem. Soc. 2001, 123, 4360.


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