用于生物应用的单原子纳米酶。

Single-atom nanozymes for biological applications.

机构信息

Tianjin Key Laboratory of Low Dimensional Materials Physics and Preparing Technology, School of Sciences, Tianjin University, Tianjin 300350, China.

出版信息

Biomater Sci. 2020 Dec 7;8(23):6428-6441. doi: 10.1039/d0bm01447h. Epub 2020 Nov 3.

DOI:10.1039/d0bm01447h

PMID:33141122

Abstract

Nanozymes have been widely used as highly active and stable arterial enzymes due to their controllable electronic transfer and unique catalytic reaction route. However, the development of nanozymes is hindered by their ambiguous structure, insufficient activity and inadequate substrate selectivity. In comparison, single-atom nanozymes (SAzymes) hold superior catalytic activity 10-100 times higher than conventional nanozymes by maximizing the utilization of metal atom dispersion, and exhibit versatile catalytic selectivity through precisely adjusting the atom spatial configuration. In this review, we highlight several well-defined SAzymes, and discuss their accurate atom configuration, catalytic mechanisms, enzyme-like activity, and applications in cancer treatment, brain disease, and wound healing. It is of great significance to understand the advantages and properties of SAzymes for further medical development.

摘要

纳米酶由于其可控的电子传递和独特的催化反应途径，已被广泛用作高效且稳定的动脉酶。然而，纳米酶的发展受到其结构不明确、活性不足和底物选择性不足的限制。相比之下，单原子纳米酶 (SAzymes) 通过最大限度地利用金属原子的分散，将催化活性提高了 10-100 倍，比传统的纳米酶具有更高的催化活性，并且通过精确调整原子空间构型表现出多种催化选择性。在这篇综述中，我们重点介绍了几种明确的 Szymes，并讨论了它们精确的原子构型、催化机制、类酶活性以及在癌症治疗、脑部疾病和伤口愈合中的应用。了解 Szymes 的优势和特性对于进一步的医学发展具有重要意义。

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用于生物应用的单原子纳米酶。

Single-atom nanozymes for biological applications.

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