Composition Dependencies of Positive Electrode Properties and Local Structures of Li1+xNbxFe1–2xO2 with a Disordered Rocksalt Structure

Naoto Kitamura; Ryusuke Kure; Chiaki Ishibashi; Yasushi Idemoto

doi:10.2497/jjspm.16D-SIS11-02

Composition Dependencies of Positive Electrode Properties and Local Structures of Li_1+xNb_xFe_1–2xO₂ with a Disordered Rocksalt Structure

Naoto Kitamura, Ryusuke Kure, Chiaki Ishibashi, Yasushi Idemoto

研究成果: Article › 査読

抄録

In this study, Li_1+xNb_xFe_1–2xO₂ (x = 0.05~0.25) with the disordered rocksalt structure were synthesized and the electrode properties and atomic arrangement were investigated. The local structures were examined by X-ray total scattering measurements and reverse Monte Carlo modeling using the data. It is found that the lattice parameter increases with increasing the Li (Nb) content, but the M−O distance in the first coordination shell decreases due to the contribution of the Nb−O correlation. This structural change could increase the space for lithium-ion diffusion. On the other hand, Nb with high valence tends to be localized around Li, suggesting that Nb inhibits ion diffusion during charge and discharge processes. Based on these results, it is necessary to consider not only the size of the constituent cations but also their valence to design new materials.

本文言語	English
ページ（範囲）	S1259-S1263
ジャーナル	Funtai Oyobi Fummatsu Yakin/Journal of the Japan Society of Powder and Powder Metallurgy
巻	72
DOI	https://doi.org/10.2497/jjspm.16D-SIS11-02
出版ステータス	Published - 15 3月 2025

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10.2497/jjspm.16D-SIS11-02

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title = "Composition Dependencies of Positive Electrode Properties and Local Structures of Li1+xNbxFe1–2xO2 with a Disordered Rocksalt Structure",

abstract = "In this study, Li1+xNbxFe1–2xO2 (x = 0.05~0.25) with the disordered rocksalt structure were synthesized and the electrode properties and atomic arrangement were investigated. The local structures were examined by X-ray total scattering measurements and reverse Monte Carlo modeling using the data. It is found that the lattice parameter increases with increasing the Li (Nb) content, but the M−O distance in the first coordination shell decreases due to the contribution of the Nb−O correlation. This structural change could increase the space for lithium-ion diffusion. On the other hand, Nb with high valence tends to be localized around Li, suggesting that Nb inhibits ion diffusion during charge and discharge processes. Based on these results, it is necessary to consider not only the size of the constituent cations but also their valence to design new materials.",

keywords = "Disordered rocksalt, Local structure, Positive electrode, Reverse Monte Carlo modeling, Total scattering",

author = "Naoto Kitamura and Ryusuke Kure and Chiaki Ishibashi and Yasushi Idemoto",

note = "Publisher Copyright: {\textcopyright} 2025 Japan Society of Powder and Powder Metallurgy.",

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T1 - Composition Dependencies of Positive Electrode Properties and Local Structures of Li1+xNbxFe1–2xO2 with a Disordered Rocksalt Structure

AU - Kitamura, Naoto

AU - Kure, Ryusuke

AU - Ishibashi, Chiaki

AU - Idemoto, Yasushi

PY - 2025/3/15

Y1 - 2025/3/15

N2 - In this study, Li1+xNbxFe1–2xO2 (x = 0.05~0.25) with the disordered rocksalt structure were synthesized and the electrode properties and atomic arrangement were investigated. The local structures were examined by X-ray total scattering measurements and reverse Monte Carlo modeling using the data. It is found that the lattice parameter increases with increasing the Li (Nb) content, but the M−O distance in the first coordination shell decreases due to the contribution of the Nb−O correlation. This structural change could increase the space for lithium-ion diffusion. On the other hand, Nb with high valence tends to be localized around Li, suggesting that Nb inhibits ion diffusion during charge and discharge processes. Based on these results, it is necessary to consider not only the size of the constituent cations but also their valence to design new materials.

AB - In this study, Li1+xNbxFe1–2xO2 (x = 0.05~0.25) with the disordered rocksalt structure were synthesized and the electrode properties and atomic arrangement were investigated. The local structures were examined by X-ray total scattering measurements and reverse Monte Carlo modeling using the data. It is found that the lattice parameter increases with increasing the Li (Nb) content, but the M−O distance in the first coordination shell decreases due to the contribution of the Nb−O correlation. This structural change could increase the space for lithium-ion diffusion. On the other hand, Nb with high valence tends to be localized around Li, suggesting that Nb inhibits ion diffusion during charge and discharge processes. Based on these results, it is necessary to consider not only the size of the constituent cations but also their valence to design new materials.

KW - Disordered rocksalt

KW - Local structure

KW - Positive electrode

KW - Reverse Monte Carlo modeling

KW - Total scattering

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