Topic: Microstructure of Nanozymes Implications for Enhanced Catalytic Activity

This Special Issue aims to explore the influence of nanozyme microstructure on catalytic activity, emphasizing its key role in the catalytic mechanism. The catalytic performance of nanozymes is closely related to their composition, morphology, and surface properties, with microstructure optimization playing a significant role in enhancing catalytic efficiency. Through multi-scale modeling and simulation techniques, researchers can conduct in-depth analyses of how the nanozyme microstructure affects reaction kinetics and active site distribution. For instance, atomic-scale simulations can reveal the internal electronic structure, atomic arrangement, and substrate interactions of nanozymes, while larger-scale models can provide insights into their behavior in complex reaction environments. This multi-scale approach not only elucidates the catalytic mechanism of nanozymes but also offers theoretical support for the design of novel and efficient catalysts. By understanding the relationship between microstructure and catalytic performance, engineers and scientists can optimize nanozyme synthesis methods to achieve higher catalytic activity and selectivity.

Special Issue Summary:

1. Relationship between microstructure and catalytic activity of nanozymes;

2. Multi-scale modeling and simulation techniques for nanozymes;

3. Advances in nanozyme catalytic mechanisms;

4. Design and optimization strategies for advanced nano-enzymatic catalysts.