Modeling Pressure-driven Assembly of Polymer Coated Nanoparticles
JMD Lane and KM Salerno and I Srivastava and GS Grest and HY Fan, SHOCK COMPRESSION OF CONDENSED MATTER - 2017, 1979, 090007 (2018).
DOI: 10.1063/1.5044864
High-pressure experiments have successfully produced a variety of gold nanostructures by compressing polymer coated spherical nanoparticles. We apply atomistic simulation to understand the role of the soft polymer response in determining the pressure-driven assembly of gold nanostructures. Quasi-isentropic experiments have shown that 1D, 2D and 3D nanostructures can be formed and recovered from dynamic compression of fcc superlattices of alkanethiol-coated gold nanocrystals on Sandia's Veloce pulsed power accelerator. Molecular modeling has shown that the dimensionality of the final structures depends on the orientation of the superlattice and the uniaxial loading. We describe the role of coating ligand binding strength, on ligand migration and deformation processes during pressure-driven coalescence of the cores into permanent nanowires, nanosheets and 3D structures.
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