عنوان

An efficient algorithm for finding the minimum energy path for cation migration in ionic materials.

شماره

LA0jw62485

عنوان اصلي

An efficient algorithm for finding the minimum energy path for cation migration in ionic materials.

نام عام مواد

[Article]

نام نخستين پديدآور

Rong, ZiqinKitchaev, DaniilCanepa, PieremanueleHuang, WenxuanCeder, Gerbrand

متن يادداشت

The Nudged Elastic Band (NEB) is an established method for finding minimum-energy paths and energy barriers of ion migration in materials, but has been hampered in its general application by its significant computational expense when coupled with density functional theory (DFT) calculations. Typically, an NEB calculation is initialized from a linear interpolation of successive intermediate structures (also known as images) between known initial and final states. However, the linear interpolation introduces two problems: (1) slow convergence of the calculation, particularly in cases where the final path exhibits notable curvature; (2) divergence of the NEB calculations if any intermediate image comes too close to a non-diffusing species, causing instabilities in the ensuing calculation. In this work, we propose a new scheme to accelerate NEB calculations through an improved path initialization and associated energy estimation workflow. We demonstrate that for cation migration in an ionic framework, initializing the diffusion path as the minimum energy path through a static potential built upon the DFT charge density reproduces the true NEB path within a 0.2 Å deviation and yields up to a 25% improvement in typical NEB runtimes. Furthermore, we find that the locally relaxed energy barrier derived from this initialization yields a good approximation of the NEB barrier, with errors within 20 meV of the true NEB value, while reducing computational expense by up to a factor of 5. Finally, and of critical importance for the automation of migration path calculations in high-throughput studies, we find that the new approach significantly enhances the stability of the calculation by avoiding unphysical image initialization. Our algorithm promises to enable efficient calculations of diffusion pathways, resolving a long-standing obstacle to the computational screening of intercalation compounds for Li-ion and multivalent batteries.

تاريخ نشر

2016

عنوان

UC Berkeley

نام الکترونيکي

نوع ماده

[Article]

کد کاربرگه

276707

سطح دسترسي

a

تكميل شده

Y