

Advanced Search
Add new
Update
Impact Factor14.0
|
Five-year Impact Factor12.3
|
{{lang == 'en_US' ? 'CSCD Impact Factor' : 'CSCD影响因子'}}2.5402
|
CiteScore23.6
|
Editor-in-ChiefXinhe Bao, Gabriele Centi
Surface-to-bulk engineering with high-valence W6+ enabling stabilized single-crystal LiNi0.9Co0.05Mn0.05O2 cathode
Single-crystal Nickel-rich layered oxides has been recognized as one of the promising cathodes for next-generation Li-ion batteries, while its practical application was hindered by structural instability and deteriorated Li+ transfer kinetics. We reported a one-step high-valence W6+ modification to realize surface-to-bulk engineered single-crystal LiNi0.9Co0.05Mn0.05O2 (Ni90) cathode. As described by this cover, the introduction of W dopant occupying the transition metal sites coordinates with the fast ion conductor Li2WO4 layer formed on the surface, to stabilize the cathode/electrolyte interface and facilitates the Li+ transport. This work deepens the understanding of the role of high-valence cations and provides clues for design of high-performance layered cathodes.
Surface-to-bulk engineering with high-valence W6+ enabling stabilized single-crystal LiNi0.9Co0.05Mn0.05O2 cathode
Single-crystal Nickel-rich layered oxides has been recognized as one of the promising cathodes for next-generation Li-ion batteries, while its practical application was hindered by structural instability and deteriorated Li+ transfer kinetics. We reported a one-step high-valence W6+ modification to realize surface-to-bulk engineered single-crystal LiNi0.9Co0.05Mn0.05O2 (Ni90) cathode. As described by this cover, the introduction of W dopant occupying the transition metal sites coordinates with the fast ion conductor Li2WO4 layer formed on the surface, to stabilize the cathode/electrolyte interface and facilitates the Li+ transport. This work deepens the understanding of the role of high-valence cations and provides clues for design of high-performance layered cathodes.
Impact Factor14.0
Five-year Impact Factor12.3
{{lang == 'en_US' ? 'CSCD Impact Factor' : 'CSCD影响因子'}}2.5402
CiteScore23.6
{{lang == 'en_US' ? 'Editors-in-Chief' : '主编'}} {{item}}
Xinhe Bao, Gabriele Centi
包信和, Gabriele Centi
About the journal
Edit
Abstract
Cover Image
Edit
Edit
About Journal of Energy Chemistry
News
Alert
Submit
No. 16 Donghuangchenggen North Street, Beijing, China