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NanoExcitonics: Implementing Basic Circuit Elements on 2-D Carbon System

$360,000FY2010ENGNSF

Suny At Albany, Albany NY

Investigators

Abstract

NanoExcitonics: Implementing Basic Circuit Elements on 2-D Carbon System Objectives: We explore exciton-based information transmission and manipulation by demonstrating two types of basic functionalities, waveguide and gate-controlled switch, using highly adaptive 2-D single-crystalline biased bilayer graphene (BBG) system that exhibits unique tunable band-gap and exciton binding energy under perpendicular electric field. The goal is to understand fundamental excitonic characteristics such as field-dependent effects, relaxation lifetime manipulation & engineering, and drift mobility which are vital to the implementation of ?excitonic circuits?. Intellectual Merits: The research is based on innovations at several levels: (1) new concepts of excitonic waveguide and switch, (2) 2-D bilayer graphene as the material platform, (3) excitonic lifetime manipulation via a coupled quantum well structure to create indirect excitons, (4) a strategy to drive excitons with energy gradient made by local band-gap modulation, (5) acquisition and exploration of undiscovered excitonic features of band-gap opened BBG system, and (6) a method to in-situ measure the exciton mobility. Broader Impact: This work aims at developing fast, highly-scalable, and energy-efficient information transmission using non-charge-based carrier. The research may also find broader applications such as highly efficient, adaptive solar photovoltaics and nanophotonics. The research opens opportunities for graduate and undergraduate students to gain multi-disciplinary experience in physics, optics, nano-devices, integrated circuits, and nanofabrication. An outreach program comprises on-site demonstration of nanoscale scientific and engineering techniques for K-12 students. The dissemination of research results by journal and conference publications and its inclusion in new curriculum developed will ensure broad scientific and educational impacts to general public community.

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