Nanozymes,a class of nanomaterials that exhibit enzyme-like characteristics in catalysis,have been booming over decades.They feature unique properties,such as low cost,high chemical stability,easy storage,and highly t...Nanozymes,a class of nanomaterials that exhibit enzyme-like characteristics in catalysis,have been booming over decades.They feature unique properties,such as low cost,high chemical stability,easy storage,and highly tunable reactivity.Nanozymes with biomolecule modifications received the most attention because of their high biocompatibility and better natural enzyme-mimicking.With their unique physicochemical properties,these biomolecule nanohybrids have been used in a variety of applications.Hence,we highlight the current progress for“biohybrid nanozymes”in this review.The synthesis,composition,and catalytic performances of different biohybrid nanozymes are discussed.We expect that biohybrid nanozymes will attract broad interest in fundamental research and practical applications.展开更多
基金financial support from the donors of the ACS Petroleum Research Fund(62122-DNI6)UMass Dartmouth's Marine and Undersea Technology(MUST)Research Program funded by the Office of Naval Research(N00014-20-1-2170).
文摘Nanozymes,a class of nanomaterials that exhibit enzyme-like characteristics in catalysis,have been booming over decades.They feature unique properties,such as low cost,high chemical stability,easy storage,and highly tunable reactivity.Nanozymes with biomolecule modifications received the most attention because of their high biocompatibility and better natural enzyme-mimicking.With their unique physicochemical properties,these biomolecule nanohybrids have been used in a variety of applications.Hence,we highlight the current progress for“biohybrid nanozymes”in this review.The synthesis,composition,and catalytic performances of different biohybrid nanozymes are discussed.We expect that biohybrid nanozymes will attract broad interest in fundamental research and practical applications.
