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Compositional study of Ti-Nb oxide (TiNb2O7, Ti2Nb10O29, Ti2Nb14O39, and TiNb24O62) anodes for high power Li ion batteries

高功率锂电池用Ti-Nb氧化物(TiNb2O7，Ti2Nb10O29，Ti2Nb14O39和TiNb24O62)阳极的组成研究

Yeonguk Son,Haeseong Jang,Bo Wen et al.

Journal of materials chemistry. A. 2025 Feb 19. DOI:10.1039/d4ta08141b

Category-specific topological learning of metal-organic frameworks

金属有机框架的类别特定拓扑学习

Dong Chen,Chun-Long Chen,Guo-Wei Wei

Journal of materials chemistry. A. 2025 Feb 24. DOI:10.1039/d4ta08877h

Nanowire morphology control in Sb metal-derived antimony selenide photocathodes for solar water splitting

用于太阳能水分解的Sb金属衍生的抗阳硒光阴极中纳米线形态控制

Zhenbin Wang,Yongping Gan,Erin Service et al.

Journal of materials chemistry. A. 2025 Feb 17. DOI:10.1039/d4ta07389d

Mixed-phase enabled high-rate copper niobate anodes for lithium-ion batteries

用于锂离子电池的混合相高铜铌酸锂阳极

B Maarten Jager,Luuk Kortekaas,Johan E Ten Elshof et al.

Journal of materials chemistry. A. 2025 Jan 8. DOI:10.1039/d4ta07548j

Compositional flexibility in irreducible antifluorite electrolytes for next-generation battery anodes

新一代电池负极材料不可约简萤石电解质的组合灵活性

Victor Landgraf,Mengfu Tu,Zhu Cheng et al.

Journal of materials chemistry. A. 2024 Dec 23. DOI:10.1039/d4ta07521h

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