Yong Min HUANG

Professor

Contact Information
  Office: Room 130, Researching Building 3
  Email: huangym@ecust.edu.cn
  Office Phone: +86 21 642 50924
Education
  2003.03 Ph.D. Chemical Engineering, East China University of Science & Technology
  Shanghai, P. R. China

1998.06  M.S. Physical Chemistry, East China University of Science & Technology
  Shanghai, P. R. China

1993.07 Eng. Chemical Engineering, Nanchang University
  Nanchang, P. R. China
Research Interests
  Catalytic Decomposition of Energy Liquids for Propulsion Applications.
  Catalytic Materials for Hydrogen Energy & Fuel Cell
  Computer Simulation for Composite Materials

Professional Experience
  2010-now
  Full professor of the Institute of Applied Chemistry
  East China University of Science & Technology, Shanghai, CHINA

2005-2010

Associate professor of the Institute of Applied Chemistry
  East China University of Science & Technology, Shanghai, CHINA
Group Members
Ph.D. Students:
  Qing WANG
  ZhiWei CUI
Publications
 1.Y Ma, Q L Wei*, R W Ling, F K An, G Y Mu, Y M Huang*(2013): Synthesis of Macro-Mesoporous Alumina with Yeast Cell as Bio-Template. Microporous and Mesoporous Materials, 165：177-184.
   2.M Nie, Y C Zou, Y M Huang*, J Q Wang,* (2012): Ni-Fe-B catalysts for NaBH4 hydrolysis．International Journal of Hydrogen Energy, 37: 1568-1576.
   3.Y C Zou, M Nie, Y M Huang*, J Q Wang, H L Liu (2011): Kinetics of NaBH4 hydrolysis on carbon-supported ruthenium catalysts. International Journal of Hydrogen Energy, 36: 12343-12351.
  4. Y C Zou, Y M Huang*, X Li, H L Liu (2011): A durable ruthenium catalyst for the NaBH4 hydrolysis. International Journal of Hydrogen Energy, 36: 4315-4322.
   5.X Q Xiao, Y M Huang*, J Feng, H L Liu, Y Hu, (2011): Microphase Separation of a Diblock Copolymer Dispersed in Nanorod Arrays Grafted on a Plate: A Monte Carlo Study, Macrom. Theory Simul. 20: 124-131.
  6. D Y Zhi, Y M Huang∗, S H Xu, H L Liu, Y Hu (2011): Molecular thermodynamic model for swelling behavior and volume phase transition of multi-responsive hydrogels. Fluid Phase Equilibria 312: 106– 115.
   7.D Y Zhi, Y M Huang*, X Han, H L Liu, Y Hu (2010): A molecular thermodynamic model for temperature-andsolvent-sensitive hydrogels, application to the swelling behavior of PNIPAm hydrogels in ethanol/water mixtures. Chem. Eng. Sci. 65: 3223-3230.