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机构地区:[1]复旦大学化学系,上海200433
出 处:《化学进展》2009年第10期2009-2016,共8页Progress in Chemistry
基 金:国家自然科学基金项目(No.20573025)资助
摘 要:氢气作为一种可再生和零排放的清洁能源,在全球能源和环境双重危机的今天备受各国政府、企业和研究人员的关注。自然界中存在于藻类和细菌中的氢酶是高效催化氢气氧化和质子还原的氧化还原酶,在生物产氢和能量转换过程中发挥着重要作用。近年来涌现出了许多基于氢酶及其模型化合物的仿生产氢和生物燃料电池方面的研究工作。本文综述了氢酶及其分子聚集体薄膜在电极表面的组装技术,如吸附法、自组装法、Langmuir-Blodgett法和溶胶-凝胶法等,并讨论了分子聚集体薄膜中氢酶的结构、生物活性、电化学性质及其在催化产氢方面的应用。Hydrogen is one of the centerpieces of a sustainable, carbon-free energy supply, which has been attracted growing attention because of the rapid consumption of fossil fuel and unacceptable environmental problems such as the greenhouse effect. In nature, some green algae can produce hydrogen after incubation under anaerobic conditions, during which hydrogenase is synthesized and activated. The hydrogenase can reversely catalyze oxidation of hydrogen gas and reduction of protons, thus attracted much attention in the fields of biohydrogen production and biofuel cells. This paper reviews recent developments in the design and assembly of hydrogenase-modified electrodes, wherein the enzyme was immobilized by physical adsorption, self-assembly, sol-gel and Langmuir-Blodgett methods. Electrochemical properties of hydrogenase in the molecular assemblies and its application in biohydrogen production are discussed.
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