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W2800300802 abstract "Monolayer chromium triiodide (CrI3), as the thinnest ferromagnetic material demonstrated in experiment [Huang et al. Nature 2017, 546, 270], opens up new opportunities for the application of two-dimensional (2D) materials in spintronic nanodevices. Atom-thick 2D materials with switchable electric polarization are now urgently needed for their rarity and important roles in nanoelectronics. Herein, we unveil that surface I vacancies not only enhance the intrinsic ferromagnetism of monolayer CrI3 but also induce switchable electric polarization. I vacancies bring about an out-of-plane polarization without breaking the nonmetallic nature of CrI3. Meanwhile, the induced polarization can be reversed in a moderate energy barrier, arising from the unique porosity of CrI3 that contributes to the switch of I vacancies between top and bottom surfaces. Engineering 2D switchable polarization through surface vacancies is also applicable to many other metal trihalides, which opens up a new and general way toward pursuing low-dimensional multifunctional nanodevices." @default.
W2800300802 created "2018-05-17" @default.
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W2800300802 date "2018-04-18" @default.
W2800300802 modified "2023-10-13" @default.
W2800300802 title "Surface Vacancy-Induced Switchable Electric Polarization and Enhanced Ferromagnetism in Monolayer Metal Trihalides" @default.
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W2800300802 cites W1981368803 @default.
W2800300802 cites W1986895442 @default.
W2800300802 cites W1992472446 @default.
W2800300802 cites W1999097254 @default.
W2800300802 cites W2003296090 @default.
W2800300802 cites W2006710167 @default.
W2800300802 cites W2014347874 @default.
W2800300802 cites W2016263576 @default.
W2800300802 cites W2021994802 @default.
W2800300802 cites W2027279289 @default.
W2800300802 cites W2027563442 @default.
W2800300802 cites W2032757586 @default.
W2800300802 cites W2035206741 @default.
W2800300802 cites W2037401517 @default.
W2800300802 cites W2038443045 @default.
W2800300802 cites W2041311241 @default.
W2800300802 cites W2048992719 @default.
W2800300802 cites W2058122340 @default.
W2800300802 cites W2061686668 @default.
W2800300802 cites W2074950413 @default.
W2800300802 cites W2076462975 @default.
W2800300802 cites W2078249614 @default.
W2800300802 cites W2080652979 @default.
W2800300802 cites W2083222334 @default.
W2800300802 cites W2084206465 @default.
W2800300802 cites W2084726622 @default.
W2800300802 cites W2085093563 @default.
W2800300802 cites W2101606767 @default.
W2800300802 cites W2102532345 @default.
W2800300802 cites W2119282090 @default.
W2800300802 cites W2122427541 @default.
W2800300802 cites W2145235731 @default.
W2800300802 cites W2152182545 @default.
W2800300802 cites W2179788751 @default.
W2800300802 cites W2185394467 @default.
W2800300802 cites W2220596051 @default.
W2800300802 cites W2292770293 @default.
W2800300802 cites W2319238740 @default.
W2800300802 cites W2327535708 @default.
W2800300802 cites W2329339848 @default.
W2800300802 cites W2331265518 @default.
W2800300802 cites W2335627660 @default.
W2800300802 cites W2433264119 @default.
W2800300802 cites W2465845169 @default.
W2800300802 cites W2472411688 @default.
W2800300802 cites W2562898967 @default.
W2800300802 cites W2565052473 @default.
W2800300802 cites W2588013339 @default.
W2800300802 cites W2592253840 @default.
W2800300802 cites W2593878967 @default.
W2800300802 cites W2597054437 @default.
W2800300802 cites W2604226379 @default.
W2800300802 cites W2605317103 @default.
W2800300802 cites W2606397457 @default.
W2800300802 cites W2609530143 @default.
W2800300802 cites W2609973983 @default.
W2800300802 cites W2616995170 @default.
W2800300802 cites W2731326592 @default.
W2800300802 cites W2738977148 @default.
W2800300802 cites W2744886316 @default.
W2800300802 cites W2953287545 @default.
W2800300802 cites W3099733718 @default.
W2800300802 doi "https://doi.org/10.1021/acs.nanolett.8b00314" @default.
W2800300802 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29668292" @default.
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