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Electrostatic Control of Insulator-Metal Transition in La-doped SrSnO3 Films.

Laxman Raju ThoutamJin YueAbhinav PrakashTianqi WangKavinraaj Ella ElangovanBharat Jalan
Published in: ACS applied materials & interfaces (2019)
We investigate the ion gel gating of wide bandgap oxide, La-doped SrSnO3 films grown using radical-based molecular beam epitaxy. An applied positive bias resulted in a reversible electrostatic control of sheet resistance over 3 orders of magnitude at low temperature driving sample from Mott variable range hopping to a weakly localized transport. Analysis of low temperature transport behavior revealed electron-electron interaction and weak localization effects to be the dominant scattering mechanisms. A large voltage window (-4 V ≤ Vg ≤ +4 V) was obtained for reversible electrostatic doping of SrSnO3 films showing robustness of stannate with regards to redox chemistry with electrolyte gating irrespective of the bias type.
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