Oklahoma State University - Tulsa
Oklahoma State University - Tulsa

Feng Lu, Ph.D.

Lu
Research Scientist
Helmerich Research Center/Advanved Materials Characterization Center (Core Labs)

Oklahoma State University-Tulsa
700 North Greenwood Avenue, HRC-244
Tulsa, OK 74106-0700
Phone: 918-594-8638
Fax: 918-594-8640
Email: feng.lu@okstate.edu

 

Professional Profile

Dr. Feng Lu is a Research Scientist in HRC and the Manager of the Core Labs at Oklahoma State University. He has strong background in materials science and has worked on metals, alloy, ceramics, and composites, in the form of thin film, wire, and bulk. He has expertise in materials synthesis and characterization, microstructure sample preparation, mechanical properties testing, electromagnetic measurements, process engineering, and related statistical analysis.

PROFESSIONAL PREPARATION

Ph.D., Materials Science, University of Wisconsin-Madison, 2009
M. S., Materials Science, University of Wisconsin-Madison, 2005
M. S., Materials Science, Tsinghua University, 2001
B. S., Materials Science and Engineering, Tsinghua University, 1998

APPOINTMENTS

  • 9/2014 – Present         Helmerich Research Center, Oklahoma State University           Research Scientist
  • 1/2010 – 3/2014          Magnet Laboratory, Texas A&M University                    Assistant Research Scientist 
  • 10/2007 – 12/2009     National High Magnetic Field Laboratory                                       Research Assistant

SELECTED PUBLICATIONS

  • F. Lu, F. Kametani, and E.E. Hellstrom, Optimization of a fluorine-free metal-organic deposition to fabricate BaZrO3-doped YBa2Cu3O7-δ film on RABiTS substrates, Supercond. Sci. Technol., 26 045016, 2013
  • F. Lu, F. Kametani, and E.E. Hellstrom, Film growth of BaZrO3 doped YBa2Cu3O7-δ by using fluorine-free metal-organic deposition, Supercond. Sci. Technol. 25 015011, 2012
  • F. Lu, K. Damborsky, P. McIntyre, A. McInturff, N. Pogue, K. Smit, and E. Sooby, Studies of porosity, connectivity, and parasitic phases in textured Bi-2212/Ag after non-melt heat treatment, AIP Conf. Proc. 1435, 332, 2012
  • K. Damborsky, F. Lu, P. McIntyre, and N. Pogue, Development of a textured-powder Bi-2212 conductor, IEEE Trans. Appl. Supercond. 21(3), 2011
  • C.X. Ji, F. Lu, Y.A. Chang, J. Yang, and M.S. Rzchowski, Growth and physical property of epitaxial Co70Fe30 thin film on Si substrate via TiN buffer, Appl. Phys. Lett., 92, 022504, 2008