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Scale and rate in CdS pressure-induced phase transition

AIP Conference Proceedings

Lane, J.M.D.; Thompson, Aidan P.; Srivastava, Ishan S.; Grest, Gary S.; Ao, Tommy A.; Stoltzfus, Brian S.; Austin, Kevin N.; Fan, H.; Morgan, D.; Knudson, Marcus D.

We describe recent efforts to improve our predictive modeling of rate-dependent behavior at, or near, a phase transition using molecular dynamics simulations. Cadmium sulfide (CdS) is a well-studied material that undergoes a solid-solid phase transition from wurtzite to rock salt structures between 3 and 9 GPa. Atomistic simulations are used to investigate the dominant transition mechanisms as a function of orientation, size and rate. We found that the final rock salt orientations were determined relative to the initial wurtzite orientation, and that these orientations were different for the two orientations and two pressure regimes studied. The CdS solid-solid phase transition is studied, for both a bulk single crystal and for polymer-encapsulated spherical nanoparticles of various sizes.

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Mechanics of Gold Nanoparticle Superlattices at High Hydrostatic Pressures

Journal of Physical Chemistry C

Srivastava, Ishan S.; Peters, Brandon L.; Lane, J.M.; Fan, Hongyou F.; Salerno, K.M.; Grest, Gary S.

Pressure-driven assembly of ligand-grafted gold nanoparticle superlattices is a promising approach for fabricating gold nanostructures, such as nanowires and nanosheets. Optimizing this fabrication method will require extending our understanding of superlattice mechanics to regimes of high pressures. We use molecular dynamics simulations to characterize the response of alkanethiol-grafted gold nanoparticle superlattices to applied hydrostatic pressures up to 15 GPa. At low applied pressures, intrinsic voids govern the mechanics of compaction. As applied pressures increase, the void collapse and ligand compression depend significantly on the ligand length. These microstructural observations correlate directly with trends in bulk modulus and elastic constants. For short ligands, core-core contact between gold nanoparticles is observed at high pressures, which augurs irreversible response and eventual sintering. This presintering behavior was unexpected under hydrostatic loading and is observed only for the shortest ligands.

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33 Results
33 Results