Importance of metal−oxygen bond for stable oxygen-redox reaction in Li-excess layered oxides

Delocalized Metal–Oxygen π-Redox Is the Origin of Anomalous Nonhysteretic Capacity in Li-Ion and Na-Ion Cathode Materials

(2021) Daniil A. Kitchaev et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Quantifying the Capacity Contributions during Activation of Li2MnO3

(2020) Jatinkumar Rana et al.   ACS Energy Letters

Design Rules for High-Valent Redox in Intercalation Electrodes

(2020) William E. Gent et al.   Joule

First-cycle voltage hysteresis in Li-rich 3d cathodes associated with molecular O2 trapped in the bulk

(2020) Robert A. House et al.   Nature Energy

Unified picture of anionic redox in Li/Na-ion batteries

(2019) Mouna Ben Yahia et al.   NATURE MATERIALS

Metal–oxygen decoordination stabilizes anion redox in Li-rich oxides

(2019) Jihyun Hong et al.   NATURE MATERIALS

Understanding the Electrode/Electrolyte Interface Layer on the Li-Rich Nickel Manganese Cobalt Layered Oxide Cathode by XPS

(2019) Maral Hekmatfar et al.   ACS Applied Materials & Interfaces

Exploring the bottlenecks of anionic redox in Li-rich layered sulfides

(2019) Sujoy Saha et al.   Nature Energy

Reversible Mn2+/Mn4+ double redox in lithium-excess cathode materials

(2018) Jinhyuk Lee et al.   NATURE

Fundamental understanding and practical challenges of anionic redox activity in Li-ion batteries

(2018) Gaurav Assat et al.   Nature Energy

There and back again - The journey of LiNiO₂ as cathode active material

(2018) Matteo Bianchini et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

Material Design Concept of Lithium-Excess Electrode Materials with Rocksalt-Related Structures for Rechargeable Non-Aqueous Batteries

(2018) Naoaki Yabuuchi   CHEMICAL RECORD

Requirements for reversible extra-capacity in Li-rich layered oxides for Li-ion batteries

(2017) Y. Xie et al.   Energy & Environmental Science

Overview of the Oxygen Behavior in the Degradation of Li2MnO3 Cathode Material

(2017) Eunseog Cho et al.   Journal of Physical Chemistry C

Oxygen activity and peroxide formation as charge compensation mechanisms in Li2MnO3

(2017) Anika Marusczyk et al.   Journal of Materials Chemistry A

Approaching the limits of cationic and anionic electrochemical activity with the Li-rich layered rocksalt Li3IrO4

(2017) Arnaud J. Perez et al.   Nature Energy

Synthesis and electrochemical properties of Li1.3Nb0.3V0.4O2 as a positive electrode material for rechargeable lithium batteries

(2016) Naoaki Yabuuchi et al.   CHEMICAL COMMUNICATIONS

X-ray Photoemission Spectroscopy Study of Cationic and Anionic Redox Processes in High-Capacity Li-Ion Battery Layered-Oxide Electrodes

(2016) Dominique Foix et al.   Journal of Physical Chemistry C

Atomic insight into electrochemical inactivity of lithium chromate (LiCrO 2 ): Irreversible migration of chromium into lithium layers in surface regions

(2015) Yingchun Lyu et al.   JOURNAL OF POWER SOURCES

A new active Li–Mn–O compound for high energy density Li-ion batteries

(2015) M. Freire et al.   NATURE MATERIALS

High-capacity electrode materials for rechargeable lithium batteries: Li3NbO4-based system with cation-disordered rocksalt structure

(2015) Naoaki Yabuuchi et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Visualization of O-O peroxo-like dimers in high-capacity layered oxides for Li-ion batteries

(2015) E. McCalla et al.   SCIENCE

Ultimate Limits to Intercalation Reactions for Lithium Batteries

(2014) M. Stanley Whittingham   CHEMICAL REVIEWS

Reversible Oxygen Participation to the Redox Processes Revealed for Li1.20Mn0.54Co0.13Ni0.13O2

(2013) Hideyuki Koga et al.   JOURNAL OF THE ELECTROCHEMICAL SOCIETY

Mechanisms Associated with the “Plateau” Observed at High Voltage for the Overlithiated Li1.12(Ni0.425Mn0.425Co0.15)0.88O2System

(2008) N. Tran et al.   CHEMISTRY OF MATERIALS