S-Modified MOF Nanozyme Cascade System with Multi-Enzyme Activity for Dual-Mode Antibiotic Assay
Key Laboratory of Guangdong Province · Fuzhou University
Abstract
The judicious utilization of antibiotics has established a robust bulwark for human health. However, their improper usage has engendered deleterious ramifications on the environment, underscoring the imperative for developing efficacious and cost-effective detection and degradation platforms. This study presents a sulfur-modified iron–cobalt bimetallic single-atom nitrogen-doped carbon catalyst (S-FeCo-NC) with a noncopper active center. In contrast to conventional laccase, which utilizes copper as its active center, the S-FeCo-NC catalyst exhibits multiple enzyme activities, including laccase-like, peroxidase-like, and catalase-like functions, with iron and cobalt serving as the active centers. As a proof of…
Citation impact
- FWCI
- 33.57
- Percentile
- 100%
- References
- 31
Authors
5- YWYunsen Wang
Key Laboratory of Guangdong Province, Fuzhou University
- STShuo Tian
Key Laboratory of Guangdong Province, Fuzhou University
- SCShuyun Chen
Key Laboratory of Guangdong Province, Fuzhou University
- MLMei‐Jin LiCorresponding
Key Laboratory of Guangdong Province, Fuzhou University
- DTDianping TangCorresponding
Key Laboratory of Guangdong Province, Fuzhou University
Topics & keywords
- Chemistry
- Cascade
- Dual (grammatical number)
- Enzyme
- Antibiotics
- Dual mode
- Biochemistry
- Biophysics