析氧
电催化剂
材料科学
可再生能源
电解
电解水
持续性
金属有机骨架
多孔性
复合数
电化学
范围(计算机科学)
工艺工程
纳米技术
储能
环境科学
可扩展性
结构材料
工程类
可持续设计
可持续能源
机械工程
设计要素和原则
电化学储能
材料设计
作者
Bhagyashri B. Kamble,Aditi De,Seung Joo Jang,Arun Karmkar,Venkatchalam Vinothkumar,Niyaz Mujawar,Subrata Kundu,Tae Hyun Kim
出处
期刊:Energy & environmental materials
[Wiley]
日期:2026-02-04
被引量:3
摘要
To achieve sustainable renewable energy, there is an urgent need for efficient electrocatalyst. Such electrocatalyst must have capability to drive the water electrolysis with significant stability and electrocatalytic activity. The metal organic framework and their derivatives have become popular material due to its porosity and tunable coordination framework. However, their restricted conductivity and structural delicateness limit their full exploration. Therefore, to reduce their inherent limitation, recently MOF‐based and MOF‐derived composites (MOF‐GO, MOF‐Polymer, and MOF‐MXene) with versatile architecture have been developed. Therefore, such MOF composite can offer improved charge transfer kinetics, high exposure of active sites during electrochemical studies. In this context, this comprehensive review offers a critical assessment of the recent advancement of MOF and MOF‐based and MOF‐derived composites for the oxygen evolution reaction. This review will highlight how structural design and interfacial engineering can dictate electrocatalytic performance. Additionally, to illustrate the contribution of redox‐active metal centers, organic ligands, and hierarchical porosity, significant example and cases are thoroughly discussed. Finally, opportunities and challenges are outlined, including scalable synthesis, in situ/operando insights, and incorporation into practical electrolyzer systems.
科研通智能强力驱动
Strongly Powered by AbleSci AI