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Paper detail

n-Type Chalcogenides by Ion Implantation

Carrier-type reversal to enable the formation of semiconductor p-n junctions is a prerequisite for many electronic applications. Chalcogenide glasses are p-type semiconductors and their applications have been limited by the extraordinary difficulty in obtaining n-type conductivity. The ability to form chalcogenide glass p-n junctions could improve the performance of phase-change memory and thermoelectric devices and allow the direct electronic control of nonlinear optical devices. Previously, carrier-type reversal has been restricted to the GeCh (Ch=S, Se, Te) family of glasses, with very high Bi or Pb doping concentrations (5 to 11 at.%) incorporated during high-temperature glass melting. Here we report the first n-type doping of chalcogenide glasses by ion implantation of Bi into GeTe and GaLaSO amorphous films, demonstrating rectification and photocurrent in a Bi-implanted GaLaSO device. The electrical doping effect of Bi is observed at a 100 times lower concentration than for Bi melt-doped GeCh glasses.

preprint2014arXivOpen access
Mark A. HughesYanina FedorenkoBehrad GholipourJin YaoTae-Hoon LeeRussell M. GwilliamKevin P. HomewoodSteven HinderDaniel W. HewakStephen R. ElliottRichard J. Curry
cond-mat.mtrl-sci
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Mark A. HughesYanina FedorenkoBehrad GholipourJin YaoTae-Hoon LeeRussell M. GwilliamKevin P. HomewoodSteven HinderDaniel W. HewakStephen R. ElliottRichard J. Curry

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