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The significance of mitigating crosstalk in lithium-ion batteries: a review
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 …
industry but suffer from rapid capacity fading and a high risk of thermal runaway. The …
Building practical high‐voltage cathode materials for lithium‐ion batteries
J ** toward highly stable nickel-rich cathode
Nickel-rich LiNi0. 8Co0. 15Al0. 015O2 (NCA) with excellent energy density is considered
one of the most promising cathodes for lithium-ion batteries. Nevertheless, the stress …
one of the most promising cathodes for lithium-ion batteries. Nevertheless, the stress …
Roadmap for rechargeable batteries: present and beyond
S **n, X Zhang, L Wang, H Yu, X Chang… - Science China …, 2024 - Springer
Rechargeable batteries currently hold the largest share of the electrochemical energy
storage market, and they play a major role in the sustainable energy transition and industrial …
storage market, and they play a major role in the sustainable energy transition and industrial …
Oxygen vacancy chemistry in oxide cathodes
YH Zhang, S Zhang, N Hu, Y Liu, J Ma, P Han… - Chemical Society …, 2024 - pubs.rsc.org
Secondary batteries are a core technology for clean energy storage and conversion
systems, to reduce environmental pollution and alleviate the energy crisis. Oxide cathodes …
systems, to reduce environmental pollution and alleviate the energy crisis. Oxide cathodes …
Challenges and recent advances in high capacity Li‐rich cathode materials for high energy density lithium‐ion batteries
W He, W Guo, H Wu, L Lin, Q Liu, X Han… - Advanced …, 2021 - Wiley Online Library
Li‐rich cathode materials have attracted increasing attention because of their high reversible
discharge capacity (> 250 mA hg− 1), which originates from transition metal (TM) ion redox …
discharge capacity (> 250 mA hg− 1), which originates from transition metal (TM) ion redox …
Pushing lithium cobalt oxides to 4.7 V by lattice‐matched interfacial engineering
The utilization of high‐voltage LiCoO2 is imperative to break the bottleneck of the practical
energy density of lithium‐ion batteries. However, LiCoO2 suffers from severe structural and …
energy density of lithium‐ion batteries. However, LiCoO2 suffers from severe structural and …
Topotactic transformation of surface structure enabling direct regeneration of spent lithium-ion battery cathodes
Recycling spent lithium-ion batteries (LIBs) has become an urgent task to address the issues
of resource shortage and potential environmental pollution. However, direct recycling of the …
of resource shortage and potential environmental pollution. However, direct recycling of the …
Oxygen loss in layered oxide cathodes for Li-ion batteries: mechanisms, effects, and mitigation
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 …
widely adopted as the cathodes of Li-ion batteries for portable electronics, electric vehicles …
Reactive boride infusion stabilizes Ni-rich cathodes for lithium-ion batteries
Engineered polycrystalline electrodes are critical to the cycling stability and safety of lithium-
ion batteries, yet it is challenging to construct high-quality coatings at both the primary-and …
ion batteries, yet it is challenging to construct high-quality coatings at both the primary-and …