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Collaborative Resarch: Materials World Network: III-V Bismide Materials for IR and Mid IR Semiconductors

$345,000FY2009MPSNSF

Arizona State University, Scottsdale AZ

Investigators

Abstract

This Materials World Network project, involves investigators from Arizona State University and the University of Michigan in the US, the University of Victoria and Simon Fraser University in Canada, the University of Surrey in the UK, and Philipps-Universität in Germany, and focuses on a relatively unexplored family of III-V semiconductor alloys containing the heaviest naturally occurring group V element, bismuth. Bismuth is non-toxic, relatively inexpensive, and the heaviest non-radioactive element in the periodic table. Furthermore, Bi-alloys have a very large spin orbit splitting and a smaller temperature dependence of the bandgap when compared with conventional semiconductor alloys. The research objective of this international collaboration is to theoretically and experimentally develop study III-V bismide compound semiconductors for IR and mid IR optoelectronic devices and other small bandgap devices at the readily available lattice constants of GaAs, InP, InAs, and GaSb. The research activities include molecular beam epitaxy growth of III-V bismide materials; structural characterization and property measurements aimed at developing an understanding of dopant incorporation, bandgap energy, band offsets, materials performance, and radiative efficiency of these materials and related devices; and theoretical analysis of the electronic and optical properties of quantum-well structures and optical devices based on Bi-containing compound semiconductors. The theoretical and device-level research will be performed mainly by the overseas scientists. The networking objective of this project is to link this Materials World Network with the larger global scientific research community by hosting two international workshops, one at the University of Michigan during the summer of 2010 and one at the University of Surrey during the summer of 2011, and by developing cyberinfrastructure to enhance data sharing and analysis between Bi-alloy investigators and the broader scientific community. These activities, promote sample exchange and tool sharing for the development of III-V bismide materials, enhance science and technology through broader dissemination, understanding, and face-to-face interactions between students and researchers, and advance data sharing and information exchange, which may well inspire further innovation and change the way data is managed and material challenges are addressed.

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