High-energy lithium-ion batteries are being increasingly applied in the electric vehicle
industry but suffer from rapid capacity fading and a high risk of thermal runaway. The …

The growing demand for sustainable energy storage devices requires rechargeable lithium‐
ion batteries (LIBs) with higher specific capacity and stricter safety standards. Ni‐rich layered …

Layered lithium transition metal oxides derived from LiMO2 (M= Co, Ni, Mn, etc.) have been
widely adopted as the cathodes of Li-ion batteries for portable electronics, electric vehicles …

The evolution of modern society demands sustainable rechargeable lithium-ion batteries
(LIBs) with higher capacity and improved safety standards. High voltage Ni-rich layered …

With the increasing production and marketing of global electric vehicles (EVs), a large
quantity of lithium ion battery (LIB) raw materials are demanded, and massive LIBs will be …

Abstract Ni‐rich LiNi1− x− yMnxCoyO2 (NMC) layered oxides are promising cathode
materials for high‐energy density lithium ion batteries but suffer from severe capacity fading …

Li-ion batteries (LIBs) are the most widely used form of energy storage in mobile electronic
devices and electric vehicles. Li-ion battery cathodes with the composition LiNi x Mn y Co z …

The huge amount of degraded NCM (LiNi0. 5Co0. 2Mn0. 3O2) cathode materials from spent
lithium-ion batteries is arising as a serious environmental issue as well as a severe waste of …

Battery recycling is indispensable for alleviating critical material shortages and enabling
sustainable battery applications. However, current methods mostly focus on spent batteries …

Precise prediction of lithium‐ion cell level aging under various operating conditions is an
imperative but challenging part of ensuring the quality performance of emerging applications …