About
Paul R. Berger (S’84 M’91 SM’97 F’11) is a Professor in Electrical & Computer Engineering at Ohio State University and Physics (by Courtesy). He is also a Distinguished Visiting Professor at Tampere University in Finland. He received the B.S.E. in engineering physics, and the M.S.E. and Ph.D. (1990) in electrical engineering, respectively, all from the University of Michigan, Ann Arbor. Currently, Dr. Berger is actively working on quantum tunneling devices, printable semiconductor devices & circuits for IoT, bioelectronics, novel devices, novel semiconductors and applied physics.
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Connect With Me
Experience
Professor
Education
University of Michigan
Projects
HI-PHOTO-SINTER – HIgh-resolution, Printing-Based Patterning and PHOTOnic SINTERing for High-Speed, Low-Voltage Metal-Oxide Thin Film Transistors
Awards & Achievements (3)
🏆 DARPA ULTRA Sustained Excellence Award
🏆 Fulbright-Nokia Distinguished Chair in Information and Communications Technologies
🏆 Finnish Distinguished Professor (FiDiPro)
Professional Memberships (1)
IEEE - Institute of Electrical and Electronics Engineers
Country: United States
Patents (1)
Method of producing organic light-emissive devices
A method for forming a patterned layer of a light-emissive material on a substrate, comprising the steps of providing a holed layer on the surface of the substrate, the holed layer being permanently attached to the substrate and defining a plurality of holes through which the underlying substrate is exposed, and applying a light-emissive material to the surface of the holed layer opposite the substrate and displacing the light-emissive material in fluid form across the surface of the holed layer so as to selectively deposit the material only in the holes of the holed layer.
Role in Research Journals (1)
Editor-in-Chief
IJFE
Publications (3)
Room temperature operation of epitaxially grown Si/Si0.5Ge0.5/Si resonant interband tunneling diodes
Resonant interband tunneling diodes on silicon substrates are demonstrated using a
heterostructure grown by low temperature molecular beam epitaxy which utilized both a central intrinsic spacer and...
For the last two decades, polymer solar cells (PSCs) have been a cynosure of the photovoltaic community, as evidenced by the growing number of patent applications and scientific publications. Efforts...
Theoretical and experimental studies are presented to understand the initial stages of growth of InGaAs on GaAs. Thermodynamic considerations show that, as strain increases, the free‐energy minimum su...
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