Chemistry of Materials

, том 30 , издание 2 , страницы 392-402

Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta)

Quentin Jacquet ^{1, 2, 3}

Gwenaelle Rousse ^{1, 2, 3}

Antonella Iadecola ³

Matthieu Saubanère ^{3, 4}

Marie-Liesse Doublet ^{3, 4}

Jean-Marie Tarascon ^{1, 2, 3}

Скрыть аффилиации авторов Показать аффилиации авторов: 4 аффилиации

Collège de France, Chaire de Chimie du Solide et de l’Energie, UMR 8260, 11 place Marcelin Berthelot, 75231 CEDEX 05, Paris, France |

Sorbonne Universités − UPMC Univ. Paris 06, 4 place Jussieu, F-75005, Paris, France |

Réseau sur le Stockage Electrochimique de l’Energie (RS2E), FR CNRS 3459, 80039, Amiens, France |

⁴

Institut Charles Gerhardt, CNRS UMR 5253, Université Montpellier, Place E. Bataillon, 34 095, Montpellier, France |

Тип публикации: Journal Article

Дата публикации: 2018-01-03

American Chemical Society (ACS)

Chemistry of Materials

scimago Q1

wos Q1

БС1

SJR: 2.065

CiteScore: 12.0

Impact factor: 7.0

ISSN: 08974756, 15205002

DOI: 10.1021/acs.chemmater.7b04117

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Materials Chemistry

General Chemistry

General Chemical Engineering

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With the advent of layered rocksalt oxides showing anionic redox activity toward Li, there has been an increased focus on designing new rocksalt structures and, more particularly, compounds pertaining to the Li3MO4 family. The structural richness of this family is nested in its ability to host many different cations, leading to the formation of superstructure patterns whose predictability is still limited. Thus, there is a need to understand the formation of such superstructures, as cationic arrangements have a crucial effect on their physical properties. Herein we propose a combined experimental and theoretical approach to understand the interactions governing cation ordering in binary systems of general composition given by Li3MyM′1–yO4 (M and M′ being Ru, Nb, Sb, and Ta). Through complementary X-ray diffraction and X-ray absorption spectroscopy techniques, we reveal a solid-solution behavior for the Li3RuySb1–yO4 system, as opposed to Li3SbyNb1–yO4 that enlists four rocksalt structures with different c...

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Jacquet Q. et al. Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta) // Chemistry of Materials. 2018. Vol. 30. No. 2. pp. 392-402.

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Jacquet Q., Rousse G., Iadecola A., Saubanère M., Doublet M., Tarascon J. Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta) // Chemistry of Materials. 2018. Vol. 30. No. 2. pp. 392-402.

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TY - JOUR

DO - 10.1021/acs.chemmater.7b04117

UR - https://doi.org/10.1021/acs.chemmater.7b04117

TI - Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta)

T2 - Chemistry of Materials

AU - Jacquet, Quentin

AU - Rousse, Gwenaelle

AU - Iadecola, Antonella

AU - Saubanère, Matthieu

AU - Doublet, Marie-Liesse

AU - Tarascon, Jean-Marie

PY - 2018

DA - 2018/01/03

PB - American Chemical Society (ACS)

SP - 392-402

IS - 2

VL - 30

SN - 0897-4756

SN - 1520-5002

ER -

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@article{2018_Jacquet,

author = {Quentin Jacquet and Gwenaelle Rousse and Antonella Iadecola and Matthieu Saubanère and Marie-Liesse Doublet and Jean-Marie Tarascon},

title = {Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta)},

journal = {Chemistry of Materials},

year = {2018},

volume = {30},

publisher = {American Chemical Society (ACS)},

month = {jan},

url = {https://doi.org/10.1021/acs.chemmater.7b04117},

number = {2},

pages = {392--402},

doi = {10.1021/acs.chemmater.7b04117}

}

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Jacquet, Quentin, et al. “Electrostatic Interactions versus Second Order Jahn–Teller Distortion as the Source of Structural Diversity in Li3MO4 Compounds (M = Ru, Nb, Sb and Ta).” Chemistry of Materials, vol. 30, no. 2, Jan. 2018, pp. 392-402. https://doi.org/10.1021/acs.chemmater.7b04117.