锂离子电池富镍阴极材料中的铌改性：来自 Ab Initio 计算的启示

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Physica Status Solidi B-basic Solid State Physics Pub Date : 2024-08-14 DOI:10.1002/pssb.202400242

Lu Lv, Yaoyao Ma, Qinghua Zhou, Wenhua Liu, Yuhang Zhang, Huiyuan Chen, Wei Hu

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引用次数: 0

摘要

本文基于投影增强波法中的密度泛函理论，对用于锂离子电池的掺铌 LiNiO2 阴极材料进行了理论研究。由于 NbO 的相互作用更强，经 Nb 修饰的富镍阴极具有更好的电子传导性、更高的电位和更大的 O 空位形成能。在充放电过程中，掺杂 Nb 可以减少晶格畸变，有利于提高电极的循环性能。该研究对掺杂 Nb 的 LiNiO2 阴极的原子构型和性能提升的起源有了新的认识，是对实验的必要补充，有助于高性能富 Ni 阴极材料的合理设计和制造。

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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Niobium Modification in Ni‐Rich Cathode Materials for Li‐Ion Batteries: Insights from Ab Initio Calculations

Herein, a theoretical study on Nb‐doped LiNiO2 cathode materials for Li‐ion batteries is performed based on density functional theory within the projector augmented wave method. Due to the stronger NbO interaction, the Ni‐rich cathode modified by Nb has better electronic conductivity, higher potential, and larger O‐vacancy formation energy. During the charging and discharging process, Nb doping can reduce the lattice distortion, which is conducive to improve the cycle performance of the electrode. This work provides a new insight into the atomic configuration and the origin of the performance enhancement for Nb‐doped LiNiO2 cathode and is a necessary complement to the experiment, thus helpful for rational design and manufacture of high‐performance Ni‐rich cathode materials.

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来源期刊

Physica Status Solidi B-basic Solid State Physics 物理-物理：凝聚态物理

CiteScore

3.30

自引率

6.20%

发文量

321

审稿时长

2 months

期刊介绍： physica status solidi is devoted to the thorough peer review and the rapid publication of new and important results in all fields of solid state and materials physics, from basic science to applications and devices. Being among the largest and most important international publications, the pss journals publish review articles, letters and original work as well as special issues and conference contributions. physica status solidi b – basic solid state physics is devoted to topics such as theoretical and experimental investigations of the atomistic and electronic structure of solids in general, phase transitions, electronic and optical properties of low-dimensional, nano-scale, strongly correlated, or disordered systems, superconductivity, magnetism, ferroelectricity etc.