Tao Chen

TL;DR: This mini review has summarized the latest developments and new trends in electrochemical sensors for antibiotics, and the existing problems and the future challenges ahead have been proposed.

TL;DR: In this article, a novel electrochemical sensor was developed based on simple nitrogen plasma modification; critically, this sensor effectively detected CFX in water, and it was also successfully applied in the detection of C FX in different types of water sources, namely groundwater and tap water.

TL;DR: Investigating OFL detection using graphene/glassy carbon electrodes (Gr/GCE) in phosphate-buffered saline across a range of pH (3-8) provides a better foundation for the rapid identification of the optimal pH environment for the electrical analysis of contaminants like antibiotics in an aquatic environment.

TL;DR: Based on the electrochemical detection results of antibiotics (OFL, NOR, and ENX), the authors first used the molecular structure analysis method based on quantum chemistry to accurately identify the electronegativity and the electrocatalytic degree of the oxidizable (and non-oxidizable) functional groups of pollutants.

TL;DR: In this article, a new electrochemical sensor based on molecular imprinting technology was developed, for rapid and sensitive detection of the odorous substance geosmin (GSM) in water.