Rational Design of Nanozymes Enables Advanced Biochemical Sensing

Abstract

In comparison with bioenzymes, nanozymes exhibit excellent robustness against extreme conditions, a low production cost, and easy-to-adjust properties, as well as potential versatility. These superiorities have attracted abundant interest in the last 15 years, to develop various nanozymes for applications including analytical sensing, environmental engineering, and biomedicine. In particular, for analytical sensing, a lot of nanozyme-involved principles and methods have been explored and applied to clinical diagnosis, environmental monitoring, food safety detection, and forensic analysis. Moreover, rational exploitation and use of nanozyme materials promote the performance of analytical methods. To highlight the latest progress in this attractive field, recent design concepts of nanozymes for advanced biochemical sensing are summarized. The development of single-atom nanozymes, self-cascade nanozymes, structurally biomimetic nanozymes, molecularly imprinted nanozymes, nanozymes breaking the pH limit, and multifunctional nanozymes is discussed in detail, to enhance detection sensitivity and selectivity, as well as expand application scenarios. Finally, some challenges and trends related to nanozyme-based sensors are reported, to satisfy the increasing needs of biochemical analysis with nanozymes.