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Nanozymes in electrochemical affinity biosensing
Microchimica Acta, 2020Over the past decade, artificial nanomaterials that exhibit properties similar to those of enzymes are gaining attraction in electrochemical biosensing as highly stable and low-cost alternatives to enzymes. This review article discusses the main features of the various nanomaterials (metal oxide, metal, and carbon-based materials) explored so far to ...
Susana Campuzano +3 more
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Recent Advances in Nanozyme Research
Advanced Materials, 2018AbstractAs a new generation of artificial enzymes, nanozymes have the advantages of high catalytic activity, good stability, low cost, and other unique properties of nanomaterials. Due to their wide range of potential applications, they have become an emerging field bridging nanotechnology and biology, attracting researchers in various fields to design
Hui Wang, Kaiwei Wan, Xinghua Shi
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Advanced Healthcare Materials
AbstractCold‐adapted nanozymes represent a distinct class of nanomaterials that exhibit robust catalytic activity and stability under low‐temperature conditions (below 37 °C). By emulating the catalytic functions of natural enzymes, these nanozymes can overcome the inherent limitations of traditional enzymes, which typically suffer from the reduced ...
Tianye Zhang +7 more
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AbstractCold‐adapted nanozymes represent a distinct class of nanomaterials that exhibit robust catalytic activity and stability under low‐temperature conditions (below 37 °C). By emulating the catalytic functions of natural enzymes, these nanozymes can overcome the inherent limitations of traditional enzymes, which typically suffer from the reduced ...
Tianye Zhang +7 more
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Nanozyme-Enabled Analytical Chemistry
Analytical Chemistry, 2021Sirong Li +4 more
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2016
Natural enzymes play vital roles in biological reactions in living systems. However, some intrinsic drawbacks, such as ease of denaturation, laborious preparation, high cost, and difficulty of recycling, have limited their practical applications. To tackle these problems, intensive efforts have been devoted to developing natural enzymes’ alternatives ...
Xiaoyu Wang +4 more
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Natural enzymes play vital roles in biological reactions in living systems. However, some intrinsic drawbacks, such as ease of denaturation, laborious preparation, high cost, and difficulty of recycling, have limited their practical applications. To tackle these problems, intensive efforts have been devoted to developing natural enzymes’ alternatives ...
Xiaoyu Wang +4 more
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AbstractNanozymes are being studied as suitable alternatives to natural enzymes in live environments because of their biocompatible size with other proteins. Their size can not only provide biocompatibility in biological applications but also enhance catalytic activity and yield benefits for catalyst separation and reuse in industrial applications. Due
S. Jin, Y. Jeong
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S. Jin, Y. Jeong
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Exploring the Specificity of Nanozymes
ACS NanoNanozymes, nanomaterials exhibiting enzyme-like activities, have emerged as a prominent interdisciplinary field over the past decade. To date, over 1200 different nanomaterials have been identified as nanozymes, covering four catalytic categories: oxidoreductases, hydrolases, isomerases, and lyases.
Huizhen Fan +4 more
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Biomedicine meets nanozyme catalytic chemistry
Coordination Chemistry Reviews, 2023Jin-Jun Shao, Wenjun Wang
exaly