Abstract
Synchrotron X-ray diffraction and thermodynamic calculation combined with particle size dependent defect ratio, stress distribution, and surface energy have been used to tackle the structural stability and phase transformation of bulk and nano zincblende (ZnS). X-ray diffractions demonstrate that bulk zincblende-type ZnS transforms to a rocksalt phase at ∼15.4 GPa associated with an in situ fracture. The transition pressure remains constant upon decreasing particle size to 15 nm. Below 15 nm, this phase transformation occurs at an elevated pressure; the particle does not break down and instead transforms to a smaller rocksalt grain with 18% volumetric shrinkage relative to zincblende. The two defined critical sizes of 3.4 and 15 nm represent the largest size for a particle that starts a defect extinction and homogeneous stress distribution, respectively, thus enabling interpretation of a combined effect of pressure and particle size. When the particle is larger than 15 nm, the hosted defect (or dislocatio...
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