单原子纳米酶的研究进展：高级合成、功能机制与生物医学应用。

Perspectives for Single-Atom Nanozymes: Advanced Synthesis, Functional Mechanisms, and Biomedical Applications.

出版信息

Anal Chem. 2021 Jan 26;93(3):1221-1231. doi: 10.1021/acs.analchem.0c04084. Epub 2020 Dec 28.

DOI:10.1021/acs.analchem.0c04084

Abstract

Single-atom nanozymes (SANs) are one of the newest generations of nanozymes, which have been greatly developed in the past few years and exploited widely for many applications, such as biosensing, disease diagnosis and therapy, bioimaging, and so on. SANs, possessing dispersed single-atom structures and a well-defined coordination environment, exhibit remarkable catalytic performance with both high activity and stability. In this paper, the most recent progress in SANs is reviewed in terms of their advanced synthesis, characterization, functional mechanisms, performance validation/optimization, and biomedical applications. Several technical challenges hindering practical applications of SANs are analyzed, and possible research directions are also proposed for overcoming the challenges.

摘要

单原子纳米酶（SANs）是纳米酶的最新一代产品之一，在过去几年中得到了极大的发展，并广泛应用于生物传感、疾病诊断和治疗、生物成像等诸多领域。SANs 具有分散的单原子结构和明确的配位环境，表现出显著的催化性能，具有高活性和高稳定性。本文综述了 SANs 在先进合成、表征、功能机制、性能验证/优化以及生物医学应用等方面的最新进展。分析了阻碍 SANs 实际应用的几个技术挑战，并提出了克服这些挑战的可能研究方向。

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单原子纳米酶的研究进展：高级合成、功能机制与生物医学应用。

Perspectives for Single-Atom Nanozymes: Advanced Synthesis, Functional Mechanisms, and Biomedical Applications.

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