Gary K. Fedder, Ph.D.
Affiliations: | Institute for Complex Engineered Systems | Carnegie Mellon University, Pittsburgh, PA |
Website:
http://www.ece.cmu.edu/~mems/Google:
"Gary Fedder"Children
Sign in to add trainee| Hasnain M. Lakdawala | grad student | 2002 | Carnegie Mellon |
| Michael S. Lu | grad student | 2002 | Carnegie Mellon |
| Huikai Xie | grad student | 2002 | Carnegie Mellon |
| Qi Jing | grad student | 2003 | Carnegie Mellon |
| George L. Subrebost | grad student | 2005 | Carnegie Mellon |
| J. F. Alfaro | grad student | 2007 | Carnegie Mellon |
| Chiung-Cheng Lo | grad student | 2008 | Carnegie Mellon |
| Amy W. Tsao | grad student | 2011 | Carnegie Mellon |
| Nathan S. Lazarus | grad student | 2012 | Carnegie Mellon |
| Kristen L. Dorsey | grad student | 2013 | Carnegie Mellon |
| Yu-Jen D. Fang | grad student | 2013 | Carnegie Mellon |
| Congzhong Guo | grad student | 2013 | Carnegie Mellon |
Collaborators
Sign in to add collaborator| Takashi Daniel Yoshida Kozai | collaborator | 2011- | University of Pittsburgh (Neurotree) |
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Publications
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| Kochhar A, Galanko ME, Soliman M, et al. (2019) Resonant Microelectromechanical Receiver Journal of Microelectromechanical Systems. 28: 327-343 |
| Gutiérrez A, Guney MG, Fedder GK, et al. (2017) The role of hierarchical design and morphology in the mechanical response of diatom-inspired structures via simulation. Biomaterials Science |
| Naserifar N, LeDuc PR, Fedder GK. (2017) Drop casting of stiffness gradients for chip integration into stretchable substrates Journal of Micromechanics and Microengineering. 27: 45018 |
| Ong XC, Khilwani R, Forssell M, et al. (2017) A transfer process to fabricate ultra-compliant neural probes in dissolvable needles Journal of Micromechanics and Microengineering. 27: 035008 |
| Khilwani R, Gilgunn PJ, Kozai TD, et al. (2016) Ultra-miniature ultra-compliant neural probes with dissolvable delivery needles: design, fabrication and characterization. Biomedical Microdevices. 18: 97 |
| Naserifar N, LeDuc PR, Fedder GK. (2016) Material Gradients in Stretchable Substrates toward Integrated Electronic Functionality. Advanced Materials (Deerfield Beach, Fla.) |
| Gao J, Guo D, Santhanam S, et al. (2015) Material Characterization and Transfer of Large-Area Ultra-Thin Polydimethylsiloxane Membranes Journal of Microelectromechanical Systems |
| Naserifar N, LeDuc PR, Fedder GK. (2015) Engineered Material Gradients for Biologically Integrated Stretchable Electronics Biophysical Journal. 108 |
| Kozai TD, Gugel Z, Li X, et al. (2014) Chronic tissue response to carboxymethyl cellulose based dissolvable insertion needle for ultra-small neural probes. Biomaterials. 35: 9255-68 |
| Khairi A, Thaokar C, Fedder G, et al. (2014) Characterization of a CMOS sensing core for ultra-miniature wireless implantable temperature sensors with application to cryomedicine. Medical Engineering & Physics. 36: 1191-6 |