Director, Institute of Chemical Engineering, University of Shanghai for Science and Technology (USST)
Shulin WANG, professor in the University of Shanghai for Science and Technology (USST), director of the institute of chemical engineering, leader of the doctorial subject of chemical engineering. Member of American Chemical Society (ACS), Member of American Institute of Chemical Engineering (AIChE), Member of the International Institute of Acoustics and Vibration (IIAV), council member of the Chinese Society of Particuology, council member of the Chinese Society of Energy, editorial board member of more than 3 major journals in China.
Wang graduated from Xi’an University of Architecture and Technology in 1976 and majored in Mechanical Engineering. In 1980, he took part in the national test for oversea postgraduate study, and got the first in the Chinese Ministry of Metallurgy. From Dec.1981 to Dec. 1983 he studied Process Engineering in TU Brauschweig, Germany. After that, he was professor successively in Xi’an University of Architecture and Technology (1984-1992), visiting professor in TH Aachen (1992-1993), Germany, and professor and dean of Engineering in Ocean University of China (1994-2000). From 2000 on, he has been working in the USST.
Wang is named as Distinguished Specialist for Science and Technology by the Chinese Nation in1986. And he got the National Invention Prize of 3rd class in 1988 for inventing the High Efficiency Vibration Mills and milling. He has hosted 7 projects from the National Natural Science Foundation of China (NSFC), most of which concerned nanomaterials and nanotechnology. Wang is the author of more than 100 scientific papers published, and the owner of 8 new invention patents.
More recently, Wang’s group has fund a new mechanism for Zn/ZnO nanorod growing in direction, which is powered by mechanical energy, and a novel nanorod structure, which had large polar surface and displayed a periodic pattern of light- and dark-contrast regions, as they hydrolyzing the Zn nanoparticles by normal water steam, that are manufactured in large scale by mechanical method in dry mode and at room temperature. The Zn/ZnO composite nanorods may be useful in photocatalytic degradation of organic waste and the development of solar cells.
Synthesis of Binary Nano-composite of Ti50Zr50 and Its Characterization, Journal of Alloys and Compounds 2007,429(1-2):227-232.
Nanostructural Evolution of Zn by Dry Roller Vibration Milling at Room Temperature, Progress in Natural Science 2006, 16(4): 441- 444.
Impact Chaos Control and Stress Release: A Key for Development of Ultra Fine Vibration Milling, Progress in Natural Science 2002, 12(5): 336-341.
Energy dissipation in normal elasto-plastic impact between two spheres, ASME Journal of Applied Mechanics, DOI: 10.1115/1.3130801,(in press)
Energy Dissipation in Collision of Two Balls Covered by Fine Particles, Int. J. Impact Eng. doi:10.1016/j.ijimpeng.2009.06.011,(in press)
Synthesis and Characterization of Magnetic Nanosized Fe3O4/MnO2 Composite Particles, Journal of Nanomaterials 2009, article ID 340217, 5 pages, doi:10.1155/2009/340217.
Performance of a New Fine Particles Impact Damper, Advances in Acoustics and Vibration 2008, Article ID 140894, 6 pages, doi: 10.1155/2008/140894.
Dry modification of electrode materials by roller vibration milling at room temperature,Particuology 2008, 6(5):383-388.
Photocatalytic performance of hydrolyzed Znnanostructures to decompose methyl orange, Journal of Chemical Industry and Engineering (China) 2008,59(4):1016-1021.
The Roller Vibration Milling: Preparing Dry Nanostructures in Large Scale and at Room Temperature, Proceedings of 2007 AIChE Annual Meeting, Paper No.331ac, Nov.4-9, 2007, Salt Lake City, US.