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Single Gate P-N Junctions in Graphene-Ferroelectric Devices

Graphene's linear dispersion relation and the attendant implications for bipolar electronics applications have motivated a range of experimental efforts aimed at producing p-n junctions in graphene. Here we report electrical transport measurements of graphene p-n junctions formed via simple modifications to a PbZr$_{0.2}$Ti$_{0.8}$O$_3$ substrate, combined with a self-assembled layer of ambient environmental dopants. We show that the substrate configuration controls the local doping region, and that the p-n junction behavior can be controlled with a single gate. Finally, we show that the ferroelectric substrate induces a hysteresis in the environmental doping which can be utilized to activate and deactivate the doping, yielding an `on-demand' p-n junction in graphene controlled by a single, universal backgate.

preprint2016arXivOpen access
J. Henry HinnefeldRuijuan XuSteven RogersShishir PandyaMoonsub ShimLane W. MartinNadya Mason
cond-mat.mes-hallcond-mat.mtrl-sci
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J. Henry HinnefeldRuijuan XuSteven RogersShishir PandyaMoonsub ShimLane W. MartinNadya Mason

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