钴基异相催化剂用于氨硼烷制氢的最新进展

IF 3.8 3区 化学 Q2 CHEMISTRY, PHYSICAL
ChemCatChem Pub Date : 2024-08-28 DOI:10.1002/cctc.202401271
Yilin Li, xiaohan Gao, Xuechuan Lv, Ying Duan, Dong Sui, Wanting Chang, Yanliang Yang
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引用次数: 0

摘要

氨硼烷(NH3BH3,AB)是化学储氢材料的典型代表,已被广泛应用于氢进化领域。虽然昂贵的金属催化剂(如 Rh、Ru、Pt、Ag 等)在氨硼烷的水解过程中表现出较高的活性,但价格低廉的金属更为经济。尤其是钴(Co),不仅价格相对低廉、容易获得,而且具有高活性和高选择性。与其他催化剂相比,钴基催化剂具有更好的耐久性,能在更长的时间内保持催化活性,因此受到研究人员的青睐。这些催化剂具有出色的稳定性、氢进化率和翻转频率。本文总结了以前在低价金属钴基催化剂用于硼烷氨水析氢方面取得的进展,重点介绍了支撑在各种载体上的钴基催化剂,尤其是支撑在碳材料、金属氧化物、MOFs 和镍泡沫上的催化剂。详细分析了高性能催化体系的特点。还讨论了硼烷氨制氢用钴催化剂的发展前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent progress on Cobalt‐based Heterogeneous Catalysts for Hydrogen Production from Ammonia Borane
Ammonia borane (NH3BH3, AB) is a quintessential exemplar of chemical hydrogen storage materials and has been widely used in hydrogen evolution. Although expensive metal catalysts (such as Rh, Ru, Pt, Ag, etc.) exhibit high activity in the hydrolysis of ammonia borane, inexpensive metals are more economical. Cobalt (Co), in particular, is not only relatively inexpensive and readily available, but also possesses high activity and selectivity. Compared to other catalysts, cobalt‐based catalysts have better durability and can maintain catalytic activity for a longer period of time, making them favored by researchers. These catalysts demonstrate excellent stability, hydrogen evolution rate, and turn over frequency. This article summarized previous progress in low price metal cobalt‐based catalysts for hydrogen precipitation from ammonia borane, focusing on cobalt‐based catalysts supported on various supports, especially those supported on carbon materials, metal oxides, MOFs, and nickel foams. The characteristics of high‐performance catalytic systems are analyzed in detail. The development prospects of Co catalysts for hydrogen production from ammonia borane were also discussed.
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来源期刊
ChemCatChem
ChemCatChem 化学-物理化学
CiteScore
8.10
自引率
4.40%
发文量
511
审稿时长
1.3 months
期刊介绍: With an impact factor of 4.495 (2018), ChemCatChem is one of the premier journals in the field of catalysis. The journal provides primary research papers and critical secondary information on heterogeneous, homogeneous and bio- and nanocatalysis. The journal is well placed to strengthen cross-communication within between these communities. Its authors and readers come from academia, the chemical industry, and government laboratories across the world. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies, and is supported by the German Catalysis Society.
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