Efficient Pourbaix diagrams of many-element compounds

Date Published
10/2019
Publication Type
Journal Article
Authors
DOI
10.1039/C9CP04799A
Abstract

Pourbaix diagrams have been used extensively to evaluate stability regions of materials subject to varying potential and pH conditions in aqueous environments. However, both recent advances in highthroughput material exploration and increasing complexity of materials of interest for electrochemical applications pose challenges for performing Pourbaix analysis on multidimensional systems. Specifically, current Pourbaix construction algorithms incur significant computational costs for systems consisting of four or more elemental components. Herein, we propose an alternative Pourbaix construction method that filters all potential combinations of species in a system to only those present on a compositional convex hull. By including axes representing the quantities of H+ and e required to form a given phase, one can ensure every stable phase mixture is included in the Pourbaix diagram and reduce the computational time required to construct the resultant Pourbaix diagram by several orders of magnitude. This new Pourbaix algorithm has been incorporated into the pymatgen code and the Materials Project website, and it extends the ability to evaluate the Pourbaix stability of complex multicomponent systems

Journal
Physical Chemistry Chemical Physics
Volume
21
Year of Publication
2019
Issue
45
Pagination
25323 - 25327
ISSN Number
1463-9076
Short Title
Phys. Chem. Chem. Phys.
Refereed Designation
Refereed
Organizations
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