solar — ¹ú²úÂ鶹¾«Æ· Wed, 22 Dec 2021 19:34:15 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 Eric Schiff /faculty-experts/eric-schiff/ Fri, 08 Oct 2021 13:14:58 +0000 /?post_type=faculty-experts&p=169563 Dr. Schiff serves as the Interim Executive Director of SyracuseCoE. Dr. Schiff has a long history of leading complex research projects that bring together academics, industry scientists and other partners to discover solutions to society’s energy-related problems. He has been a professor of physics at Syracuse University since 1981, leading interdisciplinary research groups and collaborating with laboratories from other universities and private organizations throughout the world. He has been a principal investigator for externally funded research projects from government agencies (Department of Energy, National Science Foundation and the Empire State Development Corp.) and corporations (United Solar Ovonic LLC, Boeing Inc., First Solar Inc., and SRC Inc.).

During his time at Syracuse, he has spent half-year sabbaticals at Xerox Palo Alto Research Center and at Innovalight, Inc., a startup company. From 2014-1017, he served concurrently as a program director at ARPA-E, an agency of the Department of Energy. There he initiated the SHIELD research program of a dozen research projects for development of inexpensive efficiency retrofits for legacy single pane windows. He also supervised a portfolio of additional projects on solar energy conversion and other energy technologies.

Schiff’s own research accomplishments include development of low-mobility solar cell device physics for thin film solar cells such as perovskites, amorphous silicon, and cadmium telluride. His fundamental physics contributions include work on electronic transport and defects in semiconductors as well as on plasmonics. He is co-author of more than 100 refereed research publications with more than 4,000 citations and he is co-inventor on three U.S. patents. He is a Fellow of the American Physical Society.

Research Interests

  • Solar cell device physics, especially light-trapping and photocarrier transport effects.
  • Charge carrier transport and recombination in disordered materials (amorphous, porous, nanocrystalline).
  • Deposition processes for thin-film semiconductors.
  • Bonding defects and metastability in amorphous silicon.

Education

1979 Ph.D. in Physics Cornell University

1971 B.S. (honors) Physics and English California Institute of Technology

Awards & Professional Honors

  • Fellow of the American Physical Society
  • Syracuse University Chancellor’s Citation for Excellence
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