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W2891436415 endingPage "6991" @default.
W2891436415 startingPage "6983" @default.
W2891436415 abstract "Like perovskite materials, antiperovskites display many intriguing physical properties. In this work, we carried out high-throughput density functional theory calculations to evaluate the stability of magnetic antiperovskite compounds. We screened 630 cubic antiperovskites M3XZ (M = Cr, Mn, Fe, Co, and Ni; Z = C, N; and X is one of the elements from Li to Bi except noble gases and 4f rare-earth metals) in order to validate the experimentally known phases and to predict novel systems. Thermodynamical, mechanical, and dynamical stabilities are considered, which are obtained by evaluating the formation energy with convex hull, elastic constants, and phonon dispersion, respectively. Eleven antiperovskites so far not reported in the ICSD database fulfill all the already-mentioned stability criteria, suggesting that their synthesis as bulk phases is likely. A softening of the already-mentioned stability criteria results in more than 50 potentially new materials, where synthesis as thin film or in related structures may be possible. The chemical trends in the stability are analyzed on the basis of the crystal orbital Hamilton population." @default.
W2891436415 created "2018-09-27" @default.
W2891436415 creator A5013966882 @default.
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W2891436415 creator A5065260634 @default.
W2891436415 creator A5076990289 @default.
W2891436415 creator A5087523775 @default.
W2891436415 date "2018-09-19" @default.
W2891436415 modified "2023-10-12" @default.
W2891436415 title "High-Throughput Screening of Magnetic Antiperovskites" @default.
W2891436415 cites W1536423993 @default.
W2891436415 cites W1573693852 @default.
W2891436415 cites W1697744742 @default.
W2891436415 cites W1781606086 @default.
W2891436415 cites W1957039784 @default.
W2891436415 cites W1972093317 @default.
W2891436415 cites W1975007254 @default.
W2891436415 cites W1979153552 @default.
W2891436415 cites W1981338907 @default.
W2891436415 cites W1981368803 @default.
W2891436415 cites W1983414792 @default.
W2891436415 cites W1985129541 @default.
W2891436415 cites W1989709140 @default.
W2891436415 cites W1990046204 @default.
W2891436415 cites W1992278384 @default.
W2891436415 cites W1992985800 @default.
W2891436415 cites W1995501644 @default.
W2891436415 cites W1998105507 @default.
W2891436415 cites W2003076314 @default.
W2891436415 cites W2006056956 @default.
W2891436415 cites W2007395042 @default.
W2891436415 cites W2007863253 @default.
W2891436415 cites W2008221167 @default.
W2891436415 cites W2011094579 @default.
W2891436415 cites W2012605786 @default.
W2891436415 cites W2014770827 @default.
W2891436415 cites W2016100978 @default.
W2891436415 cites W2018261174 @default.
W2891436415 cites W2019757418 @default.
W2891436415 cites W2028743597 @default.
W2891436415 cites W2029457272 @default.
W2891436415 cites W2029900539 @default.
W2891436415 cites W2035866872 @default.
W2891436415 cites W2036729607 @default.
W2891436415 cites W2043287024 @default.
W2891436415 cites W2051321936 @default.
W2891436415 cites W2053707378 @default.
W2891436415 cites W2057742841 @default.
W2891436415 cites W2058342181 @default.
W2891436415 cites W2061775942 @default.
W2891436415 cites W2067318290 @default.
W2891436415 cites W2068007682 @default.
W2891436415 cites W2068391393 @default.
W2891436415 cites W2082472243 @default.
W2891436415 cites W2083222334 @default.
W2891436415 cites W2088043604 @default.
W2891436415 cites W2093086503 @default.
W2891436415 cites W2093624626 @default.
W2891436415 cites W2098796801 @default.
W2891436415 cites W2120145199 @default.
W2891436415 cites W2135907259 @default.
W2891436415 cites W2167092768 @default.
W2891436415 cites W2167411492 @default.
W2891436415 cites W2177623383 @default.
W2891436415 cites W2246463750 @default.
W2891436415 cites W2278290104 @default.
W2891436415 cites W2282942319 @default.
W2891436415 cites W2308323549 @default.
W2891436415 cites W2322232911 @default.
W2891436415 cites W2328895443 @default.
W2891436415 cites W2331024404 @default.
W2891436415 cites W2337120326 @default.
W2891436415 cites W2342061666 @default.
W2891436415 cites W242130043 @default.
W2891436415 cites W2467534367 @default.
W2891436415 cites W2518256719 @default.
W2891436415 cites W2520228876 @default.
W2891436415 cites W2746428498 @default.
W2891436415 cites W2951049786 @default.
W2891436415 cites W2953037853 @default.
W2891436415 cites W3013766240 @default.
W2891436415 cites W3030701850 @default.
W2891436415 cites W3124512997 @default.
W2891436415 cites W4210991678 @default.
W2891436415 cites W4237630959 @default.
W2891436415 cites W832976576 @default.
W2891436415 doi "https://doi.org/10.1021/acs.chemmater.8b01618" @default.
W2891436415 hasPublicationYear "2018" @default.
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