Computational Approach for Epitaxial Polymorph Stabilization through Substrate Selection

Date Published
05/2016
Publication Type
Journal Article
Authors
DOI
10.1021/acsami.6b01630
Abstract

With the ultimate goal of finding new polymorphs through targeted synthesis conditions and techniques, we outline a computational framework to select optimal substrates for epitaxial growth using first principle calculations of formation energies, elastic strain energy, and topological information. To demonstrate the approach, we study the stabilization of metastable VO2 compounds which provides a rich chemical and structural polymorph space. We find that common polymorph statistics, lattice matching, and energy above hull considerations recommends homostructural growth on TiO2 substrates, where the VO2brookite phase would be preferentially grown on the ac TiO2 brookite plane while the columbite and anatase structures favor the ab plane on the respective TiO2 phases. Overall, we find that a model which incorporates a geometric unit cell area matching between the substrate and the target film as well as the resulting strain energy density of the film provide qualitative agreement with experimental observations for the heterostructural growth of known VO2 polymorphs: rutile, A and B phases. The minimal interfacial geometry matching and estimated strain energy criteria provide several suggestions for substrates and substrate–film orientations for the heterostructural growth of the hitherto hypothetical anatase, brookite, and columbite polymorphs. These criteria serve as a preliminary guidance for the experimental efforts stabilizing new materials and/or polymorphs through epitaxy. The current screening algorithm is being integrated within the Materials Project online framework and data and hence publicly available.

Journal
ACS Applied Materials & Interfaces
Volume
8
Year of Publication
2016
Issue
20
Pagination
13086 - 13093
ISSN Number
1944-8244
Short Title
ACS Appl. Mater. Interfaces
Refereed Designation
Refereed
Organizations
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