“…Several synthetic approaches have been developed to successfully modify the final particle shape, however, the underlying mechanism controlling the shape development is yet to be fully understood. 6 Controlling the morphology of crystalline particles requires a clear understanding of the fundamental growth mechanism. Currently, the so-called classical and non-classical concepts of crystal growth coexists in literature to explain the formation of mono-and polycrystalline particles, and complex morphologies.…”
Mono- and polycrystalline silver particles were formed with morphologies ranging from polyhedral, to hopper, dendritic and spherulitic particles with increasing supersaturation.
“…Several synthetic approaches have been developed to successfully modify the final particle shape, however, the underlying mechanism controlling the shape development is yet to be fully understood. 6 Controlling the morphology of crystalline particles requires a clear understanding of the fundamental growth mechanism. Currently, the so-called classical and non-classical concepts of crystal growth coexists in literature to explain the formation of mono-and polycrystalline particles, and complex morphologies.…”
Mono- and polycrystalline silver particles were formed with morphologies ranging from polyhedral, to hopper, dendritic and spherulitic particles with increasing supersaturation.
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