Stephen Forrest | Making Small Things Big in the World of Organic Electronics

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Xuất bản 18/08/2015
Organic electronics occupies a truly scalable world. Phenomena at the quantum level can provide solutions to applications as large as wall-mounted displays and lighting, to solar cells that cover the sides of buildings, to flexible electronic circuits that can mimic the eye and “see around corners”. Beyond the quantum, morphological control at the nano-scale, moving on to individual devices with micrometer and millimeter dimensions, to printing literally “kilometers” of circuits as if they were newsprint provides new and exciting challenges to the device physicist, applications engineer, and specialist in advanced manufacturing. In this talk, Stephen will discuss several important demonstrations of organic electronic devices that span this unprecedented range of dimensions. He will then consider what the future holds in this field that is rapidly emerging as a global industry. About Stephen Forrest: Professor Stephen Forrest received his B. A. Physics, 1972, University of California, MSc and PhD Physics in 1974 and 1979, University of Michigan. At Bell Labs, he investigated photodetectors for optical communications. In 1985, Prof. Forrest joined the Electrical Engineering and Materials Science Departments at USC where he worked on optoelectronic integrated circuits, and organic semiconductors. In 1992, Prof. Forrest became the James S. McDonnell Distinguished University Professor of Electrical Engineering at Princeton University. He served as director of the National Center for Integrated Photonic Technology, and as Director of Princeton's Center for Photonics and Optoelectronic Materials (POEM), and from 1997-2001, he chaired Princeton’s Electrical Engineering Department. In 2006, he rejoined the University of Michigan as Vice President for Research, and is the Paul G. Goebel Professor in Electrical Engineering and Computer Science, Materials Science and Engineering, and Physics. A Fellow of the APS, IEEE and OSA and a member of the National Academy of Engineering, he received the IEEE/LEOS Distinguished Lecturer Award in 1996-97, and in 1998 he was co-recipient of the IPO National Distinguished Inventor Award as well as the Thomas Alva Edison Award for innovations in organic LEDs. In 1999, Prof. Forrest received the MRS Medal for work on organic thin films. In 2001, he was awarded the IEEE/LEOS William Streifer Scientific Achievement Award for advances made on photodetectors for optical communications systems. In 2006 he received the Jan Rajchman Prize from the Society for Information Display for invention of phosphorescent OLEDs, and is the recipient of the 2007 IEEE Daniel Nobel Award for innovations in OLEDs. Prof. Forrest has been honored by Princeton University establishing the Stephen R. Forrest Endowed Faculty Chair in Electrical Engineering in 2012. Prof. Forrest has authored ~550 papers in refereed journals, and has 263 patents, with an h-index of 112. He is co-founder or founding participant in several companies, including Sensors Unlimited, Epitaxx, Inc., NanoFlex Power Corp. (OTC: OPVS), Universal Display Corp. (NASDAQ: OLED) and Apogee Photonics, Inc., and is on the Board of Directors of Applied Materials and PD-LD, Inc. He has also served from 2009-2012 as Chairman of the Board of Ann Arbor SPARK, the regional economic development organization, and serves on the Board of Governors of the Technion – Israel Institute of Technology. He is Vice Chairman of the Board of the University Musical Society and is on the Executive Committee of the Michigan Economic Development Corp. The Lurie Nano Fabrication facility at the University of Michigan 2nd annual LNF Users Symposium: Sponsored by the University of Michigan's Energy Institute http://energy.umich.edu/ For more lectures on demand, please visit the MconneX website: http://engin.umich.edu/mconnex
University of Michigan Samsung Galaxy MconneX UMICH solar cells organic electronics Stephen Forrest nano-scale printing circuits applications engineering EECS Moore's Law miniaturization semiconductor excitons OLED PHOLEDs AMOLED-TFT displays Acuity flexible solar photogeneration mesoscale spherulites cold welding 3d patterning roll to roll Lurie Nanofabrication Lab
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