A Fundamental Correlative Spectroscopic Study on Li1‐xNiO2 and NaNiO2

Jacquet, Quentin; Mozhzhukhina, Nataliia; Gillespie, Peter N.O.; Wittmann, Gilles; Ramirez, Lucia Perez; Capone, Federico G.; Rueff, Jean‐Pascal; Belin, Stephanie; Dedryvère, Rémi; Stievano, Lorenzo; Matic, Aleksandar; Suard, Emmanuelle; Brookes, Nicholas B.; Longo, Alessandro; Prezzi, Deborah; Lyonnard, Sandrine; Iadecola, Antonella

doi:10.1002/aenm.202401413

Advanced Energy Materials

2024

DOI: 10.1002/aenm.202401413

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A Fundamental Correlative Spectroscopic Study on Li_1‐xNiO₂ and NaNiO₂

Quentin Jacquet,

Nataliia Mozhzhukhina,

Peter N.O. Gillespie

et al.

Abstract: The intricate relationship between local atomic arrangements and electronic states significantly influences the electrochemical properties of Li‐ion battery cathode materials. Despite decades of investigation, a consensus regarding the local atomic and electronic structure of LiNiO2 remains elusive. This ambiguity stems from the potential distortion of Ni sites, either via Jahn‐Teller (JT) distortion or bond disproportionation (BD), complicating the understanding of the charge compensation mechanism involving … Show more

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Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Wang,

Gu,

Wang

et al. 2025

Chemical Engineering Journal

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Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Wang,

Gu,

Wang

et al. 2025

Chemical Engineering Journal

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Displacive Jahn–Teller Transition in NaNiO₂

Nagle-Cocco,

Genreith-Schriever,

Steele

et al. 2024

J. Am. Chem. Soc.

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Below its Jahn−Teller transition temperature, T JT , NaNiO 2 has a monoclinic layered structure consisting of alternating layers of edge-sharing NaO 6 and Jahn−Teller-distorted NiO 6 octahedra. Above T JT where NaNiO 2 is rhombohedral, diffraction measurements show the absence of a cooperative Jahn−Teller distortion, accompanied by an increase in the unit cell volume. Using neutron total scattering, solid-state Nuclear Magnetic Resonance (NMR), and extended X-ray absorption fine structure (EXAFS) experiments as local probes of the structure we find direct evidence for a displacive, as opposed to order− disorder, Jahn−Teller transition at T JT . This is supported by ab initio molecular dynamics (AIMD) simulations. To our knowledge this study is the first to show a displacive Jahn−Teller transition in any material using direct observations with local probe techniques.

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A Fundamental Correlative Spectroscopic Study on Li_1‐xNiO₂ and NaNiO₂

Cited by 2 publications

References 76 publications

Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Displacive Jahn–Teller Transition in NaNiO₂

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A Fundamental Correlative Spectroscopic Study on Li1‐xNiO2 and NaNiO2

Cited by 2 publications

References 76 publications

Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Temperature-controlled construction of honeycomb-ordered structure in layered Li2Ir0.6Ni0.4O3 to enhance the anionic redox activity and stability

Displacive Jahn–Teller Transition in NaNiO2

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A Fundamental Correlative Spectroscopic Study on Li_1‐xNiO₂ and NaNiO₂

Displacive Jahn–Teller Transition in NaNiO₂