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Research Article

Carrier dynamics and doping profiles in GaAs nanosheets

Chia-Chi Chang1,2Chun-Yung Chi2,3Chun-Chung Chen2,3Ningfeng Huang2,3Shermin Arab2,3Jing Qiu4Michelle L. Povinelli2,3P. Daniel Dapkus2,3Stephen B. Cronin1,2,3( )
Department of PhysicsUniversity of Southern California Los Angeles, CA90089USA
Center for Energy Nanoscience University of Southern CaliforniaLos Angeles, CA90089USA
Department of Electrical Engineering University of Southern CaliforniaLos Angeles, CA90089USA
Department of Chemical Engineering and Materials Science University of Southern CaliforniaLos Angeles, CA90089USA
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Abstract

We have recently demonstrated that GaAs nanosheets can be grown by metal-organic chemical vapor deposition (MOCVD). Here, we investigate these nanosheets by secondary electron scanning electron microscopy (SE-SEM) and electron beam induced current (EBIC) imaging. An abrupt boundary is observed between an initial growth region and an overgrowth region in the nanosheets. The SE-SEM contrast between these two regions is attributed to the inversion of doping at the boundary. EBIC mapping reveals a p–n junction formed along the boundary between these two regions. Rectifying Ⅰ–Ⅴ behavior is observed across the boundary further indicating the formation of a p–n junction. The electron concentration (ND) of the initial growth region is around 1 × 1018 cm–3, as determined by both Hall effect measurements and low temperature photoluminescence (PL) spectroscopy. Based on the EBIC data, the minority carrier diffusion length of the nanosheets is 177 nm, which is substantially longer than the corresponding length in unpassivated GaAs nanowires measured previously.

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Nano Research
Pages 163-170

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Cite this article:
Chang C-C, Chi C-Y, Chen C-C, et al. Carrier dynamics and doping profiles in GaAs nanosheets. Nano Research, 2014, 7(2): 163-170. https://doi.org/10.1007/s12274-013-0383-x

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Received: 03 September 2013
Revised: 31 October 2013
Accepted: 05 November 2013
Published: 03 January 2014
© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2013