Abstract
Normally we think of the glassy state as a single phase and therefore crystallization from chemically identical amorphous precursors should be identical. Here we show that the local structure of an amorphous precursor is distinct depending on the initial deposition conditions, resulting in significant differences in the final state material. Using grazing incidence total x-ray scattering, we have determined the local structure in amorphous thin films of vanadium oxide grown under different conditions using pulsed laser deposition (PLD). Here we show that the subsequent crystallization of films deposited using different initial PLD conditions result in the formation of different polymorphs of VO2. This suggests the possibility of controlling the formation of metastable polymorphs by tuning the initial amorphous structure to different formation pathways.
Highlights
We think of the glassy state as a single phase and crystallization from chemically identical amorphous precursors should be identical
Using grazing incidence total x-ray scattering, we have determined the local structure in amorphous thin films of vanadium oxide grown under different conditions using pulsed laser deposition (PLD)
This suggests the possibility of controlling the formation of metastable polymorphs by tuning the initial amorphous structure to different formation pathways
Summary
We think of the glassy state as a single phase and crystallization from chemically identical amorphous precursors should be identical. (Received 26 April 2016; accepted 29 June 2016; published online 13 July 2016) We show that the local structure of an amorphous precursor is distinct depending on the initial deposition conditions, resulting in significant differences in the final state material.
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