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W4379522395 abstract "The photomechanical effect, a phenomenon in which electron-hole (e-h) excitation from light illumination influences the plastic deformation of semiconductors, remains poorly understood at the microscopic level. In this study, we employ constrained density-functional theory simulations to investigate the interaction between e-h excitation and twin boundaries in nanotwinned boron carbide (${mathrm{B}}_{4}mathrm{C}$) and their impact on deformation mechanisms. Our findings reveal that excited e-h pairs reduce both the critical displacement (or critical shear strain) and shear strength of nanotwinned ${mathrm{B}}_{4}mathrm{C}$ under shear-induced failure. This reduction stems from the redistribution of electrons and holes near the twin boundary, weakening the B--C bond connecting adjacent icosahedra and leading to cage destabilization and failure. Notably, e-h excitation alters the deformation mechanism of asymmetric twins while exacerbating that of symmetric twins. These simulation results offer a physical explanation for the observed softening effects in nanotwinned materials under e-h excitation, thereby contributing to the understanding of the photomechanical effect." @default.
W4379522395 created "2023-06-07" @default.
W4379522395 creator A5023350053 @default.
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W4379522395 date "2023-06-06" @default.
W4379522395 modified "2023-10-16" @default.
W4379522395 title "Illuminating the photomechanical effect: Exploring the relationship between electron-hole excitation and deformation mechanisms in nanotwinned boron carbide" @default.
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W4379522395 cites W1965177521 @default.
W4379522395 cites W1967430645 @default.
W4379522395 cites W1968932914 @default.
W4379522395 cites W1970127494 @default.
W4379522395 cites W1971260269 @default.
W4379522395 cites W1971801369 @default.
W4379522395 cites W1976325808 @default.
W4379522395 cites W1979544533 @default.
W4379522395 cites W1981368803 @default.
W4379522395 cites W1982897881 @default.
W4379522395 cites W1986649227 @default.
W4379522395 cites W1988762313 @default.
W4379522395 cites W1992400940 @default.
W4379522395 cites W1994225683 @default.
W4379522395 cites W1995222816 @default.
W4379522395 cites W1995472725 @default.
W4379522395 cites W1998483923 @default.
W4379522395 cites W1999570928 @default.
W4379522395 cites W2004488062 @default.
W4379522395 cites W2007395042 @default.
W4379522395 cites W2010967390 @default.
W4379522395 cites W2015345245 @default.
W4379522395 cites W2016004522 @default.
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W4379522395 cites W2028056984 @default.
W4379522395 cites W2037846940 @default.
W4379522395 cites W2038583777 @default.
W4379522395 cites W2042241297 @default.
W4379522395 cites W2048103227 @default.
W4379522395 cites W2054704030 @default.
W4379522395 cites W2063363560 @default.
W4379522395 cites W2069246106 @default.
W4379522395 cites W2069796604 @default.
W4379522395 cites W2072156961 @default.
W4379522395 cites W2073014572 @default.
W4379522395 cites W2075637177 @default.
W4379522395 cites W2075842408 @default.
W4379522395 cites W2079105963 @default.
W4379522395 cites W2080005302 @default.
W4379522395 cites W2083222334 @default.
W4379522395 cites W2093914988 @default.
W4379522395 cites W2138368693 @default.
W4379522395 cites W2169881865 @default.
W4379522395 cites W2170599376 @default.
W4379522395 cites W2282942319 @default.
W4379522395 cites W2304439438 @default.
W4379522395 cites W2315881675 @default.
W4379522395 cites W2322232911 @default.
W4379522395 cites W2329374954 @default.
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W4379522395 cites W2536654165 @default.
W4379522395 cites W2550904290 @default.
W4379522395 cites W2603270740 @default.
W4379522395 cites W2623262419 @default.
W4379522395 cites W2685237991 @default.
W4379522395 cites W2796752576 @default.
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W4379522395 cites W2804974557 @default.
W4379522395 cites W2808672503 @default.
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W4379522395 cites W2886813692 @default.
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W4379522395 cites W2940964606 @default.
W4379522395 cites W2977388596 @default.
W4379522395 cites W2982475389 @default.
W4379522395 cites W3034052212 @default.
W4379522395 cites W4205624149 @default.
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W4379522395 doi "https://doi.org/10.1103/physrevb.107.224102" @default.
W4379522395 hasPublicationYear "2023" @default.
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