Kunlun Ding (CV) - Department of Chemistry and Biochemistry
Kunlun Ding (CV) - Department of Chemistry and Biochemistry Kunlun Ding (CV) - Department of Chemistry and Biochemistry
Kunlun Ding Department of Chemistry and Biochemistry, University of California, Santa Barbara, CA Education: 2004-2009 Ph. D. in Physical Chemistry, Institute of Chemistry, Chinese Academy of Sciences, Beijing, China. 2000-2004 B. S. Department of Polymer Science and Engineering, College of Materials Science and Engineering, Zhengzhou University,China. Research Experience: • Phase, shape and size controlled synthesis of TiO 2 nanocrystals. • Shape and size controlled synthesis of noble metal nanocrystals. • Microwave assisted ionothermal synthesis of metal oxides. • Supercritical fluids mediated nanostructure fabrication. • Core-shell functional nanostructure fabrication. • SWNTs dispersion and separation. Research Interest: • Energy harvesting and storage. • Methane transformation. • General mechanism of crystallization: nucleation and growth of conventional crystals and supercrystals • Functional nanostructure design and fabrication. • Green nanosynthesis. • Nanomaterials separation and purification. Honors and Awards: • Institute of Chemistry Chinese Academy of Sciences (ICCAS) Outstanding Ph. D. Dissertation (ICCAS 2009) • Zhengzhou University (ZZU) Outstanding B. S. Dissertation (ZZU, 2004)
<strong>Kunlun</strong> <strong>Ding</strong><br />
<strong>Department</strong> <strong>of</strong> <strong>Chemistry</strong> <strong>and</strong> <strong>Biochemistry</strong>, University <strong>of</strong> California,<br />
Santa Barbara, CA<br />
Education:<br />
2004-2009 Ph. D. in Physical <strong>Chemistry</strong>,<br />
Institute <strong>of</strong> <strong>Chemistry</strong>, Chinese Academy <strong>of</strong> Sciences, Beijing, China.<br />
2000-2004 B. S. <strong>Department</strong> <strong>of</strong> Polymer Science <strong>and</strong> Engineering,<br />
College <strong>of</strong> Materials Science <strong>and</strong> Engineering,<br />
Zhengzhou University,China.<br />
Research Experience:<br />
• Phase, shape <strong>and</strong> size controlled synthesis <strong>of</strong> TiO 2 nanocrystals.<br />
• Shape <strong>and</strong> size controlled synthesis <strong>of</strong> noble metal nanocrystals.<br />
• Microwave assisted ionothermal synthesis <strong>of</strong> metal oxides.<br />
• Supercritical fluids mediated nanostructure fabrication.<br />
• Core-shell functional nanostructure fabrication.<br />
• SWNTs dispersion <strong>and</strong> separation.<br />
Research Interest:<br />
• Energy harvesting <strong>and</strong> storage.<br />
• Methane transformation.<br />
• General mechanism <strong>of</strong> crystallization: nucleation <strong>and</strong> growth <strong>of</strong> conventional<br />
crystals <strong>and</strong> supercrystals<br />
• Functional nanostructure design <strong>and</strong> fabrication.<br />
• Green nanosynthesis.<br />
• Nanomaterials separation <strong>and</strong> purification.<br />
Honors <strong>and</strong> Awards:<br />
• Institute <strong>of</strong> <strong>Chemistry</strong> Chinese Academy <strong>of</strong> Sciences (ICCAS) Outst<strong>and</strong>ing Ph. D.<br />
Dissertation (ICCAS 2009)<br />
• Zhengzhou University (ZZU) Outst<strong>and</strong>ing B. S. Dissertation (ZZU, 2004)
Publications:<br />
(1) <strong>Kunlun</strong> <strong>Ding</strong>, Zhenjiang Miao, Zhimin Liu*, Zha<strong>of</strong>u Zhang, Buxing Han, Guimin An,<br />
Shiding Miao, Yun Xie, Facile Synthesis <strong>of</strong> High Quality TiO 2 Nanocrystals in Ionic<br />
Liquid Via A Microwave-Assisted Process, J. Am. Chem. Soc. 2007, 129, 6362-6363.<br />
(2) <strong>Kunlun</strong> <strong>Ding</strong>, Zhenjiang Miao, Zhimin Liu*, Guimin An, Yun Xie, Ranting Tao,<br />
Buxing Han, Imidazolium cation mediated synthesis <strong>of</strong> polystyrene-polyaniline<br />
core-shell structures, J. Mater. Chem. 2008, 18, 5406-5411.<br />
(3) <strong>Kunlun</strong> <strong>Ding</strong>, Baoji Hu, Yun Xie, Guimin An, Ranting Tao, Hongye Zhang, <strong>and</strong><br />
Zhimin Liu*, A simple route to coat mesoporous SiO 2 layer on carbon nanotubes, J.<br />
Mater. Chem. 2009, 19, 3725-3731.<br />
(4) <strong>Kunlun</strong> <strong>Ding</strong>, Zhenjiang Miao, Baoji Hu, Guimin An, Zhenyu Sun, Buxing Han <strong>and</strong><br />
Zhimin Liu*, Shape <strong>and</strong> Size Controlled Synthesis <strong>of</strong> Anatase Nanocrystals with the<br />
Assistance <strong>of</strong> Ionic Liquid, Langmuir, revised.<br />
(5) Qun Xu*, <strong>Kunlun</strong> <strong>Ding</strong>, Liumin He, Jianbo Li, Yiqun Guo, Haijuan Fan, A new<br />
mechanism about the process <strong>of</strong> preparing nanoporous silica with activated carbon<br />
mold, Mater. Sci. Eng. B 2005, 121, 266-271.<br />
Personal Data:<br />
E-mail: kding@chem.ucsb.edu kunlunding@gmail.com