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Kinetic Lattice Monte Carlo Model for Oxygen Vacancy Diffusion in Praseodymium Doped Ceria: Applications to Materials Design

机译：镨掺杂氧化铈中氧空位扩散的动力晶格monte Carlo模型：材料设计的应用

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Kinetic lattice Monte Carlo (KLMC) model is developed for investigating oxygen vacancy diffusion in praseodymium-doped ceria. The current approach uses a database of activation energies for oxygen vacancy migration, calculated using first-principles, for various migration pathways in praseodymium-doped ceria. Since the first-principles calculations revealed significant vacancy-vacancy repulsion, we investigate the importance of that effect by conducting simulations with and without a repulsive interaction. Initially, as dopant concentrations increase, vacancy concentration and thus conductivity increases. However, at higher concentrations, vacancies interfere and repel one another, and dopants trap vacancies, creating a traffic jam that decreases conductivity, which is consistent with the experimental findings. The modeled effective activation energy for vacancy migration slightly increased with increasing dopant concentration in qualitative agreement with the experiment. The current methodology comprising a blend of first-principle calculations and KLMC model provides a very powerful fundamental tool for predicting the optimal dopant concentration in ceria related materials.

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Dholabhai, P. P.; Anwar, S.; Adams, J. B.; Crozier, P.; Sharma, R.;
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年度 2012
页码 1-32
总页数 32
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Oxygen vacancy diffusion ; Praseodymium doped ceria ; Migration ; Migration pathways ; Dopant concentrations ; Conductivity;

机译：氧空位扩散;掺镨二氧化铈;迁移;迁移途径;掺杂浓度;电导率;

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专利

1. Kinetic lattice Monte Carlo model for oxygen vacancy diffusion in praseodymium doped ceria: Applications to materials design [J] . Dholabhai P.P., Anwar S., Adams J.B., Journal of Solid State Chemistry . 2011,第4期

机译：do掺杂二氧化铈中氧空位扩散的动力学格子蒙特卡洛模型：在材料设计中的应用
2. A blend of first-principles and kinetic lattice Monte Carlo computation to optimize samarium-doped ceria [J] . Pratik P. Dholabhai, James B. Adams Journal of Materials Science . 2012,第21期

机译：第一性原理和动力学晶格蒙特卡罗计算的混合，以优化sa掺杂的二氧化铈
3. Predicting the optimal dopant concentration in gadolinium doped ceria: A kinetic lattice Monte Carlo approach [J] . Dholabhai P.P., Anwar S., Adams J.B., Modelling and simulation in materials science and engineering . 2012,第1期

机译：预测g掺杂二氧化铈中的最佳掺杂剂浓度：动力学晶格蒙特卡洛方法
4. (Invited) Oxygen Vacancy Mobility in Praseodymium Doped Ceria over Wide Temperature Limits [C] . Dmitri Kalaev, Thomas Defferriere, Clement Nicollet, Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：（邀请的）氧气空位在镨掺杂的电气血液中宽温度限制
5. Optimization of ionic conductivity in doped ceria using density functional theory and Kinetic Lattice Monte Carlo. [D] . Anwar, Shahriar. 2011

机译：使用密度泛函理论和动力学格子蒙特卡洛方法优化掺杂二氧化铈中的离子电导率。
6. The Lattice Kinetic Monte Carlo Simulation of Atomic Diffusion and Structural Transition for Gold [O] . Xiang He, Feng Cheng, Zhao-Xu Chen -1

机译：金的原子扩散和结构转变的晶格动力学蒙特卡洛模拟
7. Incorporation of Inhomogeneous Ion Diffusion Coefficients into Kinetic Lattice Grand Canonical Monte Carlo Simulations and Application to Ion Current Calculations in a Simple Model Ion Channel† [O] . Hyonseok Hwang, George C. Schatz, Mark A. Ratner 2007

机译：将非均匀离子扩散系数纳入动力晶格大典型蒙特卡罗模拟及其在简单模型离子通道中的离子电流计算中的应用†
8. Predicting the Optimal Dopant Concentration in Gadolinium Doped Ceria: A Kinetic Lattice Monte Carlo Approach [R] . Dholabhai, P. P., Anwar, S., Adams, J. B., 2012

机译：预测钆掺杂氧化铈的最佳掺杂浓度：动力学格子蒙特卡罗方法

Kinetic Lattice Monte Carlo Model for Oxygen Vacancy Diffusion in Praseodymium Doped Ceria: Applications to Materials Design

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