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Abstract Charge ordering (CO), characterized by a periodic modulation of electron density and lattice distortion, has been a fundamental topic in condensed matter physics, serving as a potential platform for inducing novel functional properties. The charge-ordered phase is known to occur in a doped system with highd-electron occupancy, rather than low occupancy. Here, we report the realization of the charge-ordered phase in electron-doped (100) SrTiO3epitaxial thin films that have the lowestd-electron occupancy i.e.,d1-d0. Theoretical calculation predicts the presence of a metastable CO state in the bulk state of electron-doped SrTiO3. Atomic scale analysis reveals that (100) surface distortion favors electron-lattice coupling for the charge-ordered state, and triggering the stabilization of the CO phase from a correlated metal state. This stabilization extends up to six unit cells from the top surface to the interior. Our approach offers an insight into the means of stabilizing a new phase of matter, extending CO phase to the lowest electron occupancy and encompassing a wide range of 3dtransition metal oxides.more » « lessFree, publicly-accessible full text available December 1, 2025
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Lee, Daesu; Lee, Jaeseong; Song, Kyung; Xue, Fei; Choi, Si-Young; Ma, Yanjun; Podkaminer, Jacob; Liu, Dong; Liu, Shih-Chia; Chung, Bongwook; et al (, Nano Letters)
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