材料科学
形态学(生物学)
分解水
催化作用
硫化物
纳米技术
电化学
化学工程
金属
无机化学
冶金
电极
化学
有机化学
地质学
光催化
工程类
物理化学
古生物学
作者
Jinwhan Joo,Taekyung Kim,Jaeyoung Lee,Sang‐Il Choi,Kwangyeol Lee
标识
DOI:10.1002/adma.201806682
摘要
Because H2 is considered a promising clean energy source, water electrolysis has attracted great interest in related research and technology. Noble-metal-based catalysts are used as electrode materials in water electrolyzers, but their high cost and low abundance have impeded them from being used in practical areas. Recently, metal sulfides and phosphides based on earth-abundant transition metals have emerged as promising candidates for efficient water-splitting catalysts. Most studies have focused on adjusting the composition of the metal sulfides and phosphides to enhance the catalytic performance. However, morphology control of catalysts, including faceted and hollow structures, is much less explored for these systems because of difficulties in the synthesis, which requires a deep understanding of the nanocrystal growth process. Herein, representative synthetic methods for morphology-controlled metal sulfides and phosphides are introduced to provide insights into these methodologies. The electrolytic performance of morphology-controlled metal sulfide- and phosphide-based nanocatalysts with enhanced surface area and intrinsically high catalytic activity is also summarized and the future research directions for this promising catalyst group is discussed.
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