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Quantum Dot Enhancement of Wide Bandgap Schottky Devices
Reference #: 01392 The University of South Carolina is offering licensing opportunities for Quantum Dot Enhancement of Wide Bandgap Schottky Devices Background: Wide bandgap Schottky devices increase the efficiency of electronic devices such as LEDs, light sensors, and solar cells. Schottky devices are a superior diode with less heat production,...
Published: 3/19/2024   |   Inventor(s): Andrew Greytak, Mathew Kelley, M.V.S. Chandrashekhar, Joshua Letton
Keywords(s): graphene QD adsorption, graphene QD charge transfer, Graphene SiC schottky diode, graphene transparent contact, Hybrid QD and graphene device, QD enhanced photodiode, QD sensitization
Category(s): Engineering and Physical Sciences
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