Reactive oxygen nanobiocatalysts: activity-mechanism disclosures, catalytic center evolutions, and changing states

Benefiting from low costs, structural diversities, tunable catalytic activities, feasible modifications, and high stability compared to the natural enzymes, reactive oxygen nanobiocatalysts (RONBCs) have become dominant materials in catalyzing and mediating reactive oxygen species (ROS) for diverse biomedical and biological applications. Decoding the catalytic mechanism and structure-reactivity relationship of RONBCs is critical to guide their future developments. Here, this timely review comprehensively summarizes the recent breakthroughs and future trends in creating and decoding RONBCs. First, the fundamental classification, activity, detection method, and reaction mechanism for biocatalytic ROS generation and elimination have been systematically disclosed. Then, the merits, modulation strategies, structure evolutions, and state-of-art characterisation techniques for designing RONBCs have been briefly outlined. Thereafter, we thoroughly discuss different RONBCs based on the reported major material species, including metal compounds, carbon nanostructures, and organic networks. In particular, we offer particular insights into the coordination microenvironments, bond interactions, reaction pathways, and performance comparisons to disclose the structure-reactivity relationships and mechanisms. In the end, the future challenge and perspectives for RONBCs are also carefully summarised. We envision that this review will provide a comprehensive understanding and guidance for designing ROS-catalytic materials and stimulate the wide utilisation of RONBCs in diverse biomedical and biological applications. This review offers a comprehensive and timely summarization of the most recent breakthroughs and future trends in creating reactive oxygen nanobiocatalysts, which guides their broad applications in diverse biomedical and biological fields.

Automated summary

This review comprehensively summarizes recent breakthroughs and future trends in creating and decoding reactive oxygen nanobiocatalysts (RONBCs). It discusses the fundamental classification, activity, detection method, and reaction mechanism of biocatalytic ROS generation and elimination. The review also outlines the merits, modulation strategies, structure evolutions, and characterization techniques for designing RONBCs. Furthermore, it thoroughly discusses different RONBCs based on major material species, highlighting the structure-reactivity relationships and mechanisms.