Fenton-like radical processes are widely utilized to explain catalytic mechanisms of peroxidase-like nanozymes, which exhibit remarkable catalytic activity, cost-effectiveness, and stability. However, there is still a need for a comprehensive understanding of the formation, stabilization, and transformation of such radicals. Herein, a copper formate-based nanozyme (Cuf-TMB) was fabricated a pre-catalytic strategy under ambient conditions. The as-prepared nanozyme shows comparable catalytic activity (, 1.02 × 10 mM; , 3.09 × 10 s) and kinetics to those of natural peroxidase toward HO decomposition. This is attributed to the feasible oxidation by *OH species the *O intermediate, as indicated by density functional theory calculations. The key ·OH radicals were detected to be stable for over 52 days and can be released in a controlled manner during the catalytic process electron spin-resonance spectroscopy measurements. Based on the understanding, an ultrasensitive biosensing platform was constructed for the sensitive monitoring of biochemical indicators in clinic settings.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10520911 | PMC |
| http://dx.doi.org/10.1021/acsami.3c08326 | DOI Listing |
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