Conductive metal-organic frameworks with redox activity as electrode materials for rechargeable batteries
作者机构:College of Chemistry and Materials ScienceGuangdong Provincial Key Laboratory of Supramolecular Coordination ChemistryJinan UniversityGuangzhou 510632China School of Materials and EnergyGuangdong University of TechnologyGuangzhou 510006China
基 金:supported by the National Natural Science Foundation of China(22109052,52202221,22150004) Guangdong Basic and Applied Basic Research Foundation(2022B1515020001,2024A1515010277) Guangzhou Science and Technology Program(2024A04J3899)
出 版 物:《Science China Materials》 (中国科学(材料科学)(英文版))
年 卷 期:2025年第68卷第3期
页 码:724-743页
摘 要:Two-dimensional conductive metal-organic frameworks(2D c-MOFs)with high flexibility in structure design and functionalization have inspired numerous research interests as promising multifunctional materials due to their porous structure,high conductivity,and rich redox active *** review offers a concise overview of 2D c-MOF syntheses and their applications in rechargeable *** electron transport mechanism of 2D c-MOFs will be briefly introduced *** we discuss the designs and syntheses of 2D c-MOFs,emphasizing the conjugate structure for high conductivity and the redox activity for efficient energy *** electrochemical behaviors of the 2D c-MOFs in different rechargeable battery systems are summarized with attention to their structure-performance correlations and storage *** attention is paid to the significant applied potential of 2D c-MOFs in the Na-ion batteries(NIBs)and Kion batteries(KIBs),which are more sustainable battery chemistries but are plagued by the dissatisfactory battery performances due to the large size of the Na^(+)and K^(+).The challenges and opportunities regarding their efficient synthesis and rechargeable battery applications are also *** expect this review will spark new endeavors to promote the further development of 2D c-MOFs for advanced rechargeable batteries.
主 题 词:2D c-MOFs rechargeable batteries redox activity charge storage mechanism
学科分类:081704[081704] 07[理学] 08[工学] 0817[工学-轻工类] 070303[070303] 0703[理学-化学类]
核心收录:
D O I:10.1007/s40843-024-3109-5
馆 藏 号:203144414...
