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>Tuning the rate-determining step of uric acid electrooxidation over single-atom-site metal centers for high-performing sensing
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Tuning the rate-determining step of uric acid electrooxidation over single-atom-site metal centers for high-performing sensing
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机译:Tuning the rate-determining step of uric acid electrooxidation over single-atom-site metal centers for high-performing sensing
A uric acid (UA) electrooxidation-based electrochemical sensing sys-tem is of great interest in the field of measurement science and tech-nology; however, its development is greatly plagued by the lack of efficient electrocatalysts, leading to low detection sensitivity. Here-in, we report a general method for making a series of metal single -atom catalysts (SACs) on nitrogen-doped carbon (M1-CN, M = Mo, Fe, Ru, Mn, Co, Cu, Pt, Ni) to tune the rate-determining step (RDS) of UA electrooxidation to greatly boost its electrocatalytic perfor-mance. We experimentally demonstrate that the Mo1-CN shows the highest electrocatalytic activity for UA electrooxidation among the investigated M1-CN. As a proof-of-concept application, we construct a portable and wireless biosensor for high-throughput detection of disease markers (human papillomavirus-16 HPV-16) based on the particular advantage of Mo1-CN in enhancing the UA electrooxidation performance.
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