纳米酶化学微型综述,聚焦分析和生物分析传感应用

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引用次数: 0

摘要

随着纳米科学和材料化学的快速发展,人们对研究创新合成方法以生产新型纳米材料的兴趣与日俱增。在不同的纳米材料中,有许多材料都具有类似酶的高内在活性。由于其催化效率高且稳定,纳米酶催化被称为纳米酶化学,是酶催化的替代品。另一方面,纳米酶被称为具有高酶样活性的纳米材料,可用于模拟苛刻环境条件下的酶促反应。本文旨在简要介绍以纳米酶为基础的化学,重点介绍最新纳米酶传感器的历史概况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Mini-Review on Nanozyme Chemistry with Focus on Analytical and Bioanalytical Sensing Applications
The fast development of nanoscience and material chemistry has increased interest in researching new and innovative synthesis methods to produce new nanomaterials. Among different nanomaterials, a wide variety of these materials reveal high intrinsic enzyme-like activity. Due to their high catalytic efficiency and stability, the new field of nanozyme-based catalysis, which has been introduced as an alternative to enzyme-based catalysis, is called nanozyme chemistry. On the other hand, nanozymes are known as nanomaterials with high enzyme-like activity and can be used to simulate enzymatic reactions in harsh environmental conditions. This article aimed to present a brief introduction on the nanozyme-based chemistry with emphasizing on the historical overview of recent nanozymatic sensors.
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