Organic Electronic Devices
Learn about next-generation electronic devices using molecules and polymers, including OLEDs and organic photovoltaic devices.
Learn about next-generation electronic devices using molecules and polymers, including OLEDs and organic photovoltaic devices.
This comprehensive course explores the cutting-edge field of organic electronic devices, focusing on molecular and polymer-based technologies. Students learn about synthesis techniques, charge transport phenomena, and device applications. The curriculum covers emerging technologies like OLEDs, organic photovoltaic devices, and thermoelectric generators. Through theoretical study and practical applications, students gain expertise in analyzing and designing innovative organic electronic materials and devices.
Instructors:
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What you'll learn
Master the synthesis of organic semiconductor materials
Understand charge transport mechanisms in organic materials
Analyze optoelectronic properties of semiconductors
Evaluate organic electronic device performance
Design and troubleshoot next-generation electronic devices
Compare organic and inorganic semiconductor applications
Skills you'll gain
This course includes:
Live video
Quizzes, homework, exams
Access on Mobile, Tablet, Desktop
Limited Access access
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Module Description
This course provides a comprehensive introduction to organic electronic devices, focusing on the intersection of chemistry, physics, and electronics. Students learn about the synthesis and characterization of organic semiconductors, charge generation and transport mechanisms, and practical device applications. The curriculum emphasizes understanding molecular-level phenomena and their impact on macroscopic device performance. Special attention is given to emerging technologies like OLEDs and organic photovoltaic devices.
Instructor
Pioneering Materials Scientist Advancing Polymer Technology and Quantum Materials
Dr. Bryan W. Boudouris currently serves as the Vice President for Research & Economic Development at The University of Alabama and Professor of Chemical & Biological Engineering, following an illustrious career at Purdue University where he held the R. Norris and Eleanor Shreve Professorship. After earning his B.S. in Chemical Engineering from the University of Illinois at Urbana-Champaign in 2004 and Ph.D. from the University of Minnesota in 2009, he completed postdoctoral research at UC Berkeley and Lawrence Berkeley National Laboratory before joining Purdue in 2011. His groundbreaking research spans polymer chemistry and physics, with particular focus on developing optoelectronically active polymers, functional block polymer self-assembly, and materials for quantum applications and national security. His exceptional contributions have earned him numerous prestigious awards, including the APS John H. Dillon Medal, AIChE Owens Corning Early Career Award, NSF CAREER Award, DARPA Young Faculty Award, and AFOSR Young Investigator Award. As a co-founder of the water purification company Anfiro, Inc., and through his extensive research publications, he has significantly impacted fields ranging from bioelectronic sensing to water purification, while serving two years as a program director at the National Science Foundation in the Division of Materials Research.
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