综述了室温离子液体的合成方法及其在生物催化反应中的最新应用。
This paper focuses on the recent development of synthetic methods for ionic liquids and their application in biocatalysis.
所得电极呈现良好的生物催化活性,具有典型的酶催化反应动力学特征。
The electrode obtained exhibits significantly well biology catalytic activity and shows kinetic characteristics of the typical enzyme-catalyzed reaction.
的生物化学与分子生物学研究进展作了简要评述,包括酶分子的结构、酶的催化反应机制、酶基因表达与调控等。
Advances in biochemical and molecular biological studies, including enzyme structure, catalytic mechanism and gene expression and regulation of peroxidases are reviewed.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
生物催化剂——金属酶是在特定的生物环境中,进行其它催化剂无可比拟的高效性、选择性和极度温和反应条件的催化反应。
Biocatalysts -enzymes are well known for their ability to carry out chemical reactions with high selectivity and high efficiency under ambient conditions.
介孔硅材料在催化反应、吸附分离以及生物和医药等领域有着广泛的应用前景。
Mesoporous silicas have shown potential applications in catalytic reaction, adsorption, separation, biotechnology and pharmacy.
介孔硅材料在催化反应、吸附分离以及生物和医药等领域有着广泛的应用前景。
Mesoporous silicas have shown potential applications in catalytic reaction, adsorption, separation, biotechnology and pharmacy.
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