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CHEN Qianwang, Professor Nano-materials and Nano-chemistry

Name: Chen Qian Wang (Q. W. Chen 陈乾旺)
Born:   December, 1965, China
Address: PI of the Hefei National Laboratory for Physical Sciences at the Microscale and Professor of the Department of Materials Science & Engineering, University of Science and Technology of China, 230026 Hefei, China
Tel: 86-551-63603005
Fax: 86-551-63603005
E-mail: cqw@ustc.edu.cn
Homepage: http://fnl.ustc.edu.cn
 1995: Ph. D. University of Science and Technology of China.
 1995–1997: Assistant and associate professor at University of Science and Technology of China.
 1997–1998: Institute of Hydrothermal Chemistry, Kochi University, Japan; Postdoctoral.
 1998–1999: Institute of Solar Energy Research, Germany, sponsored by Humboldt Scholarship; Postdoctoral.
 2000: Department of Applied Physics, Hong Kong Polytech. University; Visiting researcher.
 2000: Appointed as a professor and PhD supervisor at University of Science and Technology of China.
 2001: Awarded the National Science Fund for Distinguished Young Scholars of China.
 2002: Awarded the Changjiang-Professor of inorganic chemistry, University of Science and Technology of China.
 2004: Selected into the State-level New Century Talents Supporting Program by seven ministries and commissions directly under the state council including the Ministry of Human Resources.
Professor Chen's research group is involved in studies of various aspects of solid-state materials, including Self-assembly synthesis, nano-scale materials and Physics.
Current work is directed towards an understanding of the mechanisms and kinetics of reactions under external magnetic fields and in supercritical systems. This includes the mechanism and kinetics involved in the formation of advanced materials by magnetic induction with a view to making solids with homogenous microstructures. The Group is also interested in nanocatalysis, nanoscale drug carriers.
1) Magnetically Guided Delivery of DHA and Fe Ions for Enhanced Cancer Therapy Based on pH-responsive Degradation of DHA-Loaded Fe3O4@C@MIL-100(Fe) Nanoparticles,Biomaterials.107(2016)88.
2) Non-precious alloy encapsulated in nitrogen-doped graphene layers derived  from MOFs as an active and durable hydrogen evolution reaction catalyst, Energy Environ. Sci.8(2015)3563.
3) Novel Mn3 [Co(CN)6]2@SiO2 @Ag Core–Shell Nanocube:Enhanced Two-Photon Fluorescence and MagneticResonance Dual-Modal Imaging-Guided Photothermal and Chemo-therapy, Small .11(2015)5956.
4) High lithium anodic performance of highly nitrogen-doped porous carbon prepared from a metal-organic framework, NATURE COMMUNICATIONS, 2014. 5:5261, DOI: 10.1038.
5) Doped graphene for metal-free catalysis, Chem. Soc. Rev. 43(2014)2841.
6) Metal-free catalytic reduction of 4-nitrophenol to 4-aminophenol by N-doped graphene, Energy Environ. Sci., 6(2013)3260.
7) Magnetic-field-induced growth of single-crystalline Fe3O4 nanowires, Advanced Materials 16(2004)137.
8) Reduction of carbon dioxide by magnetite: Implications for the primordial synthesis of organic molecules, J. Am. Chem. Soc 122(2000)970.

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