Junhong Chen - Assistant Professor


Contact Information

Office Address:
EMS 845
3200 North Cramer Street
Milwaukee, WI 53211
Phone: 414-229-2615
Fax: 414-229-6958
Email: jhchen@uwm.edu

WWW: www.uwm.edu/~jhchen

Mailing Address:
P.O. Box 784
Department of Mechanical Engineering
University of Wisconsin-Milwaukee
Milwaukee, WI 53201

 Junhang Chen

Education

Ph.D. - Mechanical Engineering, University of Minnesota, Minneapolis, MN, 2002
M.S. - Mechanical Engineering, University of Minnesota, Minneapolis, MN, 2000
B.E. - Thermal Engineering, Tongji University, Shanghai, China, 1995

Postdoctoral Research

Chemical Engineering, California Institute of Technology, Pasadena, CA, 2002-2003

Research Interests

Nanoparticle synthesis, assembly, and nanofabrication; Carbon nanotubes and hybrid nanomaterials; Nanostructure-based gas sensors and biosensors; Corona discharges and plasma reacting flows; Energy conversion and conservation; Pollution control.

Selected Publications

  1. L. Y. Zhu, G. H. Lu, and J. H. Chen, "A Generic Approach to Coat Carbon Nanotubes with Nanoparticles for Potential Energy Applications," Journal of Heat Transfer-Special Issue on Energy Nanotechnology, 2007, in press.
  2. J. H. Chen, G. H. Lu, L. Y. Zhu, and R. C. Flagan, "A Simple and Versatile Mini-Arc Plasma Source for Nanocrystal Synthesis," Journal of Nanoparticle Research, 2007, in press.
  3. J. H. Chen and G. H. Lu, "Controlled Decoration of Carbon Nanotubes with Nanoparticles," Nanotechnology 17(12), 2891-2894, 2006.
  4. G. H. Lu, K. L. Huebner, L. E. Ocola, M. Gajdardziska-Josifovska and J. H. Chen, "Gas Sensors Based on Tin Oxide Nanoparticles Synthesized from a Mini-arc Plasma Source," Journal of Nanomaterials, No. 60828, 2006.
  5. J. H. Chen, W. C. Conant, T. A. Rissman, R. C. Flagan, and J. H. Seinfeld, "Effect of Angle of Attack on the Performance of an Airborne Counterflow Virtual Impactor," Aerosol Science and Technology 39 (6), 485-491, 2005.
  6. J. H. Chen and P. X. Wang, "Effect of Relative Humidity on Electron Distribution and Ozone Production by DC Coronas in Air," IEEE Transactions on Plasma Science 33 (2), 808-812, 2005.
  7. J. H. Chen and J. H. Davidson, "A Global Model of Chemical Vapor Deposition of Silicon Dioxide by Direct-Current Corona Discharges in Air Containing Octamethylcyclotetrasiloxane Vapor," Plasma Chemistry and Plasma Processing 24 (4), 511-535, 2004.
  8. J. H. Chen and J. H. Davidson, "Chemical Vapor Deposition of Silicon Dioxide by Direct-Current Corona Discharges in Dry Air Containing Octamethylcyclotetrasiloxane Vapor: Measurement of the Deposition Rate," Plasma Chemistry and Plasma Processing 24 (2), 169-188, 2004.
  9. J. H. Chen and J. H. Davidson, "Ozone Production in the Negative DC Corona: The Dependence of Discharge Polarity," Plasma Chemistry and Plasma Processing 23 (3), 499-516, 2003.
  10. J. H. Chen and J. H. Davidson, "Model of the Negative DC Corona Plasma: Comparison to the Positive DC Corona Plasma," Plasma Chemistry and Plasma Processing 23 (1), 83-102, 2003.
  11. J. H. Chen and J. H. Davidson, "Ozone Production in the Positive DC Corona Discharge: Model and Comparison to Experiments," Plasma Chemistry and Plasma Processing 22 (4), 495-522, 2002.
  12. J. H. Chen and J. H. Davidson, "Electron Density and Energy Distributions in the Positive DC Coronas: Interpretation for Corona-Enhanced Chemical Reactions," Plasma Chemistry and Plasma Processing 22 (2), 199-224, 2002.