Large band offset as driving force of 2-dimensional electron confinement: the case of SrTiO$_3$/SrZrO$_3$ interface

A. Filippetti; A. Gadaleta; I. Pallecchi D. Marr\'e; P. Delugas; V. Fiorentini

arxiv: 1309.4965 · v1 · pith:W524LUQPnew · submitted 2013-09-19 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Large band offset as driving force of 2-dimensional electron confinement: the case of SrTiO₃/SrZrO₃ interface

P. Delugas , A. Filippetti , A. Gadaleta , I. Pallecchi D. Marr\'e , V. Fiorentini This is my paper

classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords interfacesrtiosrzroelectronbandlargeoffsetadvanced

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Using advanced first-principles calculations we predict that the non-polar SrTiO$_3$/SrZrO$_3$ (001) interface, designed as either thin SrZrO$_3$ film deposited on SrTiO$_3$ or short-period (SrTiO$_3$)$_m$/(SrZrO$_3$)$_n$ superlattice, host a 2-dimensionally confined electron gas. Mobile electron charge due to native impurities, field-effect, or modulation doping remains tightly trapped at the interface. Key ingredients for this occurrence are a) the peculiar chemistry of 3d orbitals, b) the large band offset at titanate-zirconate interface.

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Large band offset as driving force of 2-dimensional electron confinement: the case of SrTiO₃/SrZrO₃ interface

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