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W1982466730 abstract "The correlation between the thermal stability and electroaffinity of a nanosolid has been explored from the perspective of surface and interface bond-order deficiency. It turns out that the coherency of an atom at the grain boundary and the portion of atoms in the skin of a nanosolid dominate the size dependence of critical temperatures $({T}_{C})$ for phase transitions. The trapping potential well depression at the surface and interface not only shifts the valence density of state positively but also enlarges the electroaffinity that determines the strength of the bond. In particular, bond-nature alteration at the junction interface, or bond-nature evolution with the reduction of atomic coordination of III- or IV-A atoms, dominates the irregular ${T}_{C}$ change with the sizes of the embedded or the III- or IV-A bare nanosolids. Atoms in ``superficial'' or ``interfacial'' skins play the core role in dictating the size effect on the thermal stability and electroaffinity of a nanosolid whereas atoms in the core interior remain as they are in the bulk." @default.
W1982466730 created "2016-06-24" @default.
W1982466730 creator A5014224432 @default.
W1982466730 creator A5055608916 @default.
W1982466730 creator A5058793440 @default.
W1982466730 creator A5076748682 @default.
W1982466730 creator A5083679415 @default.
W1982466730 date "2006-02-03" @default.
W1982466730 modified "2023-10-02" @default.
W1982466730 title "Size-induced undercooling and overheating in phase transitions in bare and embedded clusters" @default.
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W1982466730 doi "https://doi.org/10.1103/physrevb.73.075408" @default.
W1982466730 hasPublicationYear "2006" @default.
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