离子电导率
扩散
分子动力学
均方位移
离子键合
材料科学
刀切重采样
可靠性(半导体)
工作(物理)
统计物理学
热力学
电导率
蒙特卡罗方法
流离失所(心理学)
有效扩散系数
均方误差
产量(工程)
化学
自扩散
生物组织中的光子输运
计算机科学
化学物理
平方(代数)
块(置换群论)
作者
Ri He,Xiaodong Cao,Z. C. Zhong
出处
期刊:
日期:2025-08-01
卷期号:1 (8): 100163-100163
被引量:1
标识
DOI:10.1016/j.tramat.2026.100163
摘要
Ionic conductivity is a critical property of solid ionic conductors, directly influencing the performance of energy storage devices such as batteries. However, accurately calculating ionic conductivity or diffusion coefficient remains challenging due to the complex, dynamic nature of ionic motion, which often yield significant deviations, especially at room temperature. In this study, we propose an improved method, BJ-MSD, to enhance the accuracy and reliability of diffusion coefficient calculations. Combining ensemble-and-time-averaged mean square displacement analysis with block jackknife resampling, this method effectively addresses the impact of rare, anomalous diffusion events and provides robust statistical error estimates from a single simulation. Applied to large-scale deep-potential molecular dynamics simulations, we show that BJ-MSD eliminates the need for multiple independent simulations while ensuring accurate diffusion coefficient calculations across systems of varying sizes and simulation durations. This approach offers a practical and reliable framework for precise ionic conductivity estimation, advancing the study and design of high-performance solid ionic conductors.
科研通智能强力驱动
Strongly Powered by AbleSci AI