Wei He: Difference between revisions
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We are a young lab in the Department of Materials Science & Engineering, and Department of Mechanical, Aerospace & Biomedical Engineering at the University of Tennessee, Knoxville. Our research effort is directed towards applying materials science & engineering to address critical interfacial issues encountered in neural engineering. In particular, we are focusing on two issues: the compatibility of implantable neural prostheses, and functional artificial graft to bridge nerve gaps. The multi-disciplinary nature of our research incorporates techniques from polymer synthesis, surface chemistry, to micro/nano fabrication, mammalian cell culture, and immunohistology. | We are a young lab in the Department of Materials Science & Engineering, and Department of Mechanical, Aerospace & Biomedical Engineering at the University of Tennessee, Knoxville. Our research effort is directed towards applying materials science & engineering to address critical interfacial issues encountered in neural engineering. In particular, we are focusing on two issues: the compatibility of implantable neural prostheses, and functional artificial graft to bridge nerve gaps. The multi-disciplinary nature of our research incorporates techniques from polymer synthesis, surface chemistry, to micro/nano fabrication, mammalian cell culture, and immunohistology. | ||
[[Image:Group_Fall08.JPG]]<br> | |||
from left to right: Wei He, Chori Cao, Matt Cao, Erik Bowman, Jon Page, Kevin Rhodes (Fall 2008) | |||
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Revision as of 11:25, 15 September 2008
Welcome to the Wei He Lab wiki at OpenWetWare!
We are a young lab in the Department of Materials Science & Engineering, and Department of Mechanical, Aerospace & Biomedical Engineering at the University of Tennessee, Knoxville. Our research effort is directed towards applying materials science & engineering to address critical interfacial issues encountered in neural engineering. In particular, we are focusing on two issues: the compatibility of implantable neural prostheses, and functional artificial graft to bridge nerve gaps. The multi-disciplinary nature of our research incorporates techniques from polymer synthesis, surface chemistry, to micro/nano fabrication, mammalian cell culture, and immunohistology.
from left to right: Wei He, Chori Cao, Matt Cao, Erik Bowman, Jon Page, Kevin Rhodes (Fall 2008)