Proteins-Based Nanocatalysts for Energy Conversion Reactions

IF 7.1 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Topics in Current Chemistry Pub Date : 2020-06-19 DOI:10.1007/s41061-020-00306-6
Daily Rodriguez-Padron, Md Ariful Ahsan, Mohamed Fathi Sanad, Rafael Luque, Alain R. Puente Santiago
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引用次数: 4

Abstract

In recent years, the incorporation of molecular enzymes into nanostructured frameworks to create efficient energy conversion biomaterials has gained increasing interest as a promising strategy owing to both the dynamic behavior of proteins for their electrocatalytic function and the unique properties of the synergistic interactions between proteins and nanosized materials. Herein, we review the impact of proteins on energy conversion fields and the contribution of proteins to the improved activity of the resulting nanocomposites. We address different strategies to fabricate protein-based nanocatalysts as well as current knowledge on the structure–function relationships of enzymes during the catalytic processes. Additionally, a comprehensive review of state-of-the-art bioelectrocatalytic materials for water-splitting reactions such as hydrogen evolution reaction (HER) and oxygen evolution reactions (OER) is afforded. Finally, we briefly envision opportunities to develop a new generation of electrocatalysts towards the electrochemical reduction of N2 to NH3 using theoretical tools to built nature-inspired nitrogen reduction reaction catalysts.

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基于蛋白质的能量转化反应纳米催化剂
近年来,由于蛋白质电催化功能的动态行为以及蛋白质与纳米材料之间协同作用的独特性质,将分子酶结合到纳米结构框架中以创造高效的能量转换生物材料作为一种有前途的策略受到越来越多的关注。在此,我们回顾了蛋白质对能量转换场的影响以及蛋白质对所得纳米复合材料活性提高的贡献。我们提出了不同的策略来制造基于蛋白质的纳米催化剂,以及在催化过程中酶的结构-功能关系的当前知识。此外,全面回顾了最先进的生物电催化材料的水分解反应,如析氢反应(HER)和析氧反应(OER)。最后,我们简要地展望了利用理论工具构建自然氮还原反应催化剂,开发新一代电化学还原N2到NH3的电催化剂的机会。
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来源期刊
Topics in Current Chemistry
Topics in Current Chemistry Chemistry-General Chemistry
CiteScore
13.70
自引率
1.20%
发文量
48
期刊介绍: Topics in Current Chemistry is a journal that presents critical reviews of present and future trends in modern chemical research. It covers all areas of chemical science, including interactions with related disciplines like biology, medicine, physics, and materials science. The articles in this journal are organized into thematic collections, offering a comprehensive perspective on emerging research to non-specialist readers in academia or industry. Each review article focuses on one aspect of the topic and provides a critical survey, placing it in the context of the collection. Selected examples highlight significant developments from the past 5 to 10 years. Instead of providing an exhaustive summary or extensive data, the articles concentrate on methodological thinking. This approach allows non-specialist readers to understand the information fully and presents the potential prospects for future developments.
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