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

Zisheng, Zhang, Winston, Gee, Robert H., Lavroff, Anastassia N., Alexandrova
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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.
GOCIA:用于团簇、界面和吸附剂的大规范全局优化器
表面和界面的重组是多种异质催化剂和功能材料活化和/或失活的基础。统计集合表示法可为这一流动和蜕变领域提供独特的原子洞察力,但构建集合非常具有挑战性,尤其是对于具有非计量重构和不同混合吸附剂覆盖率的系统。在此,我们报告了用于探索这些体系化学空间的通用全局优化器 GOCIA。它采用大规范遗传算法(GCGA),将目标函数建立在大电势上,并在整个组成空间中演化,同时还提供了许多有用的功能和实施细节。GOCIA 已被应用于催化领域的各种系统,从团簇到表面,从热催化到电催化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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