Recent Progress on Layered Double Hydroxides and Their Derivatives for Electrocatalytic Water Splitting

层状双氢氧化物 插层(化学) 剥脱关节 氢氧化物 材料科学 分解水 纳米技术 电催化剂 化学工程 催化作用 离子交换 电化学 离子 电极 无机化学 石墨烯 化学 物理化学 工程类 有机化学 光催化 生物化学
作者
Yanyong Wang,Dafeng Yan,Samir El Hankari,Yuqin Zou,Shuangyin Wang
出处
期刊:Advanced Science [Wiley]
卷期号:5 (8): 1800064-1800064 被引量:737
标识
DOI:10.1002/advs.201800064
摘要

Layered double hydroxide (LDH)-based materials have attracted widespread attention in various applications due to their unique layered structure with high specific surface area and unique electron distribution, resulting in a good electrocatalytic performance. Moreover, the existence of multiple metal cations invests a flexible tunability in the host layers; the unique intercalation characteristics lead to flexible ion exchange and exfoliation. Thus, their electrocatalytic performance can be tuned by regulating the morphology, composition, intercalation ion, and exfoliation. However, the poor conductivity limits their electrocatalytic performance, which therefore has motivated researchers to combine them with conductive materials to improve their electrocatalytic performance. Another factor hampering their electrocatalytic activity is their large lateral size and the bulk thickness of LDHs. Introducing defects and tuning electronic structure in LDH-based materials are considered to be effective strategies to increase the number of active sites and enhance their intrinsic activity. Given the unique advantages of LDH-based materials, their derivatives have been also used as advanced electrocatalysts for water splitting. Here, recent progress on LDHs and their derivatives as advanced electrocatalysts for water splitting is summarized, current strategies for their designing are proposed, and significant challenges and perspectives of LDHs are discussed.
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