基于壳聚糖、甲壳素、纤维素和碳材料的光电催化剂制氢研究进展

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-07-25 DOI:10.1155/2023/8835940
S. Keshipour, Mina Hadidi, Ozra Gholipour
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引用次数: 1

摘要

基于生物聚合物的催化剂,如壳聚糖、甲壳素和纤维素,在广泛的应用中,特别是在析氢反应中,作为催化剂或催化剂载体,都具有可持续性和高效性。这篇综述的重点是从这些生物聚合物中获得的壳聚糖、甲壳素、纤维素和碳材料的析氢催化剂,以强调这些可持续催化剂在该领域的机会。该领域的所有报道都可以归类为光催化剂、电催化剂和光电催化剂之一,并且它们的机制在一开始就得到了澄清。然后,分别讨论了从这些生物聚合物中获得的催化剂的结果,以揭示生物聚合物的作用。结果表明,所有的生物聚合物都具有一些共同的优点,如氢键、与过渡金属螯合、易于化学改性、高性能以及用作碳或多孔材料前体的潜力。其中,壳聚糖在金属接枝、改性和氢键能力方面表现出优异的性能。此外,它提供了高活性氮掺杂碳作为氢生成中过渡金属的载体,通过延缓电荷复合来提高反应速率。
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A Review on Hydrogen Generation by Photo-, Electro-, and Photoelectro-Catalysts Based on Chitosan, Chitin, Cellulose, and Carbon Materials Obtained from These Biopolymers
Biopolymer-based catalysts like chitosan, chitin, and cellulose offer sustainability and high efficiency both as the catalyst or catalyst support in a broad range of applications, especially in hydrogen evolution reactions. This review focused on hydrogen evolution catalysts of chitosan, chitin, cellulose, and carbon materials obtained from these biopolymers to highlight the opportunities of these sustainable catalysts in this field. All the reports in this area could be classified as one of the photocatalysts, electrocatalysts, and photoelectrocatalysts, and their mechanisms were clarified in the beginning. Then, the results of catalysts obtained from each of these biopolymers were discussed separately to reveal the roles of the biopolymers. It was concluded that all of the biopolymers enjoy some common benefits like hydrogen bonding, chelating with transition metals, easy chemical modification, high performance, and potential to be used as the precursors of carbon or porous materials. Among them, chitosan showed outstanding merit due to the better performance in metal grafting, amendment, and ability of hydrogen bonding. Moreover, it provides highly active nitrogen-doped carbon as the support of transition metals in the hydrogen generation, enhancing the reaction rate by retarding the charges recombination.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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