4.8 Article

Gate-Induced Carrier De localization in Quantum Dot Field Effect Transistors

NANO LETTERS (2014)

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Journal

NANO LETTERS
Volume 14, Issue 10, Pages 5948-5952

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/nl5029655

Keywords

Quantum dots; field-effect transistor; cadmium selenide; delocalization; magnetoresistance; mobility edge

Categories

Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Physics, Applied Physics, Condensed Matter

Funding

  1. U.S. Department of Energy Office of Basic Energy Sciences, Division of Materials Science and Engineering [DE-SC0002158]

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We study gate-controlled, low-temperature resistance and magnetotransport in indium-doped CdSe quantum dot field effect transistors. We show that using the gate to accumulate electrons in the quantum dot channel increases the localization product (localization length times dielectric constant) describing transport at the Fermi level, as expected for Fermi level changes near a mobility edge. Our measurements suggest that the localization length increases to significantly greater than the quantum dot diameter.

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