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A high-mobility electronic system at an electrolyte-gated oxide surface.


ABSTRACT: Electrolyte gating is a powerful technique for accumulating large carrier densities at a surface. Yet this approach suffers from significant sources of disorder: electrochemical reactions can damage or alter the sample, and the ions of the electrolyte and various dissolved contaminants sit Angstroms from the electron system. Accordingly, electrolyte gating is well suited to studies of superconductivity and other phenomena robust to disorder, but of limited use when reactions or disorder must be avoided. Here we demonstrate that these limitations can be overcome by protecting the sample with a chemically inert, atomically smooth sheet of hexagonal boron nitride. We illustrate our technique with electrolyte-gated strontium titanate, whose mobility when protected with boron nitride improves more than 10-fold while achieving carrier densities nearing 10(14)?cm(-2). Our technique is portable to other materials, and should enable future studies where high carrier density modulation is required but electrochemical reactions and surface disorder must be minimized.

SUBMITTER: Gallagher P 

PROVIDER: S-EPMC4382703 | biostudies-literature | 2015 Mar

REPOSITORIES: biostudies-literature

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A high-mobility electronic system at an electrolyte-gated oxide surface.

Gallagher Patrick P   Lee Menyoung M   Petach Trevor A TA   Stanwyck Sam W SW   Williams James R JR   Watanabe Kenji K   Taniguchi Takashi T   Goldhaber-Gordon David D  

Nature communications 20150312


Electrolyte gating is a powerful technique for accumulating large carrier densities at a surface. Yet this approach suffers from significant sources of disorder: electrochemical reactions can damage or alter the sample, and the ions of the electrolyte and various dissolved contaminants sit Angstroms from the electron system. Accordingly, electrolyte gating is well suited to studies of superconductivity and other phenomena robust to disorder, but of limited use when reactions or disorder must be  ...[more]

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