Compared to natural enzymes, nanomaterial-based artificial enzymes have attracted
immense attention because of their high stability and cost-effectiveness. In this study, cobalt …

Thanks to the attractive merits of excellent robustness, easy large-scale production, and low
cost, peroxidase-mimicking nanomaterials (nanozymes) are being used as promising …

Due to robustness, easy large-scale preparation and low cost, nanomaterials with enzyme-
like characteristics (defined as 'nanozymes') are attracting increasing interest for various …

Nanomaterial-based enzyme mimics (nanozymes) are attracting increasing attention
because of their low production cost, high stability against denaturation, and resistance to …

Developing carbon-based materials with high catalytic performance and sensitivity has
significance in low-cost and highly efficient nanozymes. Herein, for the first time, Cu, N …

Nanomaterials with enzyme‐mimicking characteristics have engaged great awareness in
various fields owing to their comparative low cost, high stability, and large‐scale …

Inorganic artificial enzymes have been developed as potential candidates to naturally
occurring enzymes, and three inorganic enzyme mimics, noble metals, metal oxides and …

Nanozymes, the enzyme-mimicking nanomaterials, have been developed to overcome the
low stability and high cost of natural enzymes. Unlike highly active and specific enzymes …

In order to improve the stability and reduce the cost of natural enzymes, the design and
development of nanomaterials-based artificial enzymes with low-cost and highly stable …

Single‐atom catalysts are becoming a hot research topic owing to their unique
characteristics of maximum specific activity and atomic utilization. Herein, a new single‐atom …