Oded Rabin

Biography

Education  Ph.D., Massachusetts Institute of Technology (MIT), 2004 Research Interests  Synthesis and physical properties of nanowires and porous thin films, electrical and thermal transport in low dimensional systems, nanoporous membranes, interfacial nanoscience (including organic-inorganic systems, Ccntrolled assembly, scattering, and surface plasmons), thermal and electrical transport, applications in sensing, microfluidics, and chromatography. Background  Before joining the faculty as a joint apointee to the Department of Materials Science and Engineering and the Institute for Research in Electronics and Applied Physics (IREAP) in Fall 2007, Professor. Rabin held postdoctoral positions with the Harvard Medical School at Massachusetts General Hospital, and with the University of California, Berkeley. His work is supported by the Department of Business and Economic Development's Nano-Biotechnology Initiative.  Education  Ph.D., Massachusetts Institute of Technology (MIT), 2004 Research Interests  Synthesis and physical properties of nanowires and porous thin films, electrical and thermal transport in low dimensional systems, nanoporous membranes, interfacial nanoscience (including organic-inorganic systems, Ccntrolled assembly, scattering, and surface plasmons), thermal and electrical transport, applications in sensing, microfluidics, and chromatography. Background  Before joining the faculty as a joint apointee to the Department of Materials Science and Engineering and the Institute for Research in Electronics and Applied Physics (IREAP) in Fall 2007, Professor. Rabin held postdoctoral positions with the Harvard Medical School at Massachusetts General Hospital, and with the University of California, Berkeley. His work is supported by the Department of Business and Economic Development's Nano-Biotechnology Initiative. 

Research Interest

Synthesis and physical properties of nanowires and porous thin films, electrical and thermal transport in low dimensional systems, nanoporous membranes, interfacial nanoscience (including organic-inorganic systems, Ccntrolled assembly, scattering, and surface plasmons), thermal and electrical transport, applications in sensing, microfluidics, and chromatography.