GOCIA: grand canonical Global Optimizer for Clusters, Interfaces, and Adsorbates

09 October 2024, Version 2
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Restructuring of surfaces and interfaces underlie the activation and/or deactivation of a wide spectrum of heterogeneous catalysts and functional materials. The statistical ensemble representation can provide unique atomistic insights into this fluxional and metastable realm, but constructing the ensemble is very challenging, especially for the systems with off-stoichiometric reconstruction and varying coverage of mixed adsorbates. Here we report GOCIA, a general-purpose global optimizer for exploring the chemical space of these systems. It features the grand canonical genetic algorithm (GCGA), which bases the target function on the grand potential and evolves across the compositional space, as well as many useful functionalities and implementation details. GOCIA has been applied to various systems in catalysis, from cluster to surfaces, and from thermal to electro-catalysis.

Keywords

Global Optimization
Grand Canonical Ensemble
Statistical Mechanics
Ab Initio Thermodynamics
Python
Computational Catalysis
Surface Reconstruction
Catalyst Restructuring
Adsorbate Coverage
Adsorption Configurations
Fluxoinality
Catalytic Interface

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