Semiconductor Processing through Aqueous Chemistry

Douglas Keszler

Douglas Keszler

Distinguished Professor
Director, Center for Green Materials Chemistry
Oregon State University

Our research is directed to the synthesis and study of a variety of new optical, electro-optical, and electronic inorganic materials. Efforts are underway on the crystal growth and examination of nonlinear optical crystals for efficient generation of high-power vacuum ultraviolet (VUV) laser light. We are also involved in the generation of new VUV-excited phosphors for laser detection, imaging, and display applications. A multidisciplinary effort involving chemistry, materials science, physics, and electrical engineering is focused on the generation of new wide band-gap semiconductors for enabling the new fields of transparent electronics and displays. We have also recently developed techniques that provide a means for low-temperature deposition and patterning of oxide films, enabling the field of printed electronics and digital fabrication. Collaborative studies are also underway to elucidate the mechanisms and unique synthetic capabilities of these new processes and their applications to device fabrication.

Co-chairing the symposium on Green Chemistry & Materials.

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Please contact: Denise Lee


Program Tracks

MEMS & Microsystems
Medical & Biotech
Design, Fabrication & Characterization
Business & Partnering

2012 TechConnect Corporate Acceleration Partners:

AC-NET
Applied Materials
Austin_Energy
BASF
BayerMaterialScience
bp
ConstellationEnergy
DOW
Fraunhofer TechBridge
Hitachi
Honda
IBM
Kauffman Foundation
Kodak
Lam
Lockheed Martin
MWV
nationalgrid
NortheastUtilities
novaris
Panasonic
PPG
Samsung
schlumberger
Shell_GameChanger
siemens
SK Innovation
SouthernCalEdison
Toray


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Sponsorship Opportunities: Contact Denise Lee

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