A self‐powered photoelectrochemical aptasensor using 3D‐carbon nitride and carbon‐based metal‐organic frameworks for high‐sensitivity detection of tetracycline in milk and water
Jiangsu University · Changzhou Institute of Technology
Abstract
Abstract Antibiotic residues have become a significant challenge in food safety, threatening both ecosystem integrity and human health. To combat this problem, we developed an innovative photo‐powered, self‐powered aptasensor that employs a novel carbon‐doped three‐dimensional graphitic carbon nitride (3D‐CN) combined with a metal‐organic framework composed of N‐doped copper(I) oxide‐carbon (Cu 2 O@C) skeletons. The 3D‐CN serves as the photoanode, offering stable photocurrent production due to its three‐dimensional open framework structure. The N‐doped Cu 2 O@C acts as the photocathode, providing oxidation protection for the metal core and enhancing light absorption due to its metal‐organic framework…
Citation impact
- FWCI
- 24.27
- Percentile
- 100%
- References
- 50
Authors
9Topics & keywords
- Photocathode
- Photocurrent
- Aptamer
- Carbon nitride
- Materials science
- Carbon fibers
- Nanotechnology
- Graphitic carbon nitride