Capillary Sensors Composed of CdTe Quantum Dots for Real-Time In Situ Detection of Cu2+

CdTe colloidal quantum dots (CQDs) coated with glutathione (GSH) were prepared by aqueous synthesis. Based on the fluorescence selective quenching of CdTe CQDs in the presence of Cu2+, the CdTe CQDs were applied for ultrasensitive Cu2+ sensing. The detection limit of Cu2+ concentration was 0.055 mu M. In order to realize real-time and rapid on-site detection, a capillary sensor composed of CdTe CQDs was prepared, and after drying at room temperature, heating at high temperature, and laser processing, the sensor achieved good response time and detection accuracy results. The detection of 1 x 10(-5) mol/L Cu2+ concentration can be realized in 5-6 s. Moreover, the detection only needs to be carried out under an ultraviolet lamp, the cost of the sensor is low, and the detection method is very simple. The sensor requires only 3 mu L of solution to be tested and can complete the detection, which not only saves the solution to be tested but also greatly improves the limit of the detection environment. A capillary sensor is of great significance for the real-time detection of natural environment and industrial wastewater.

Automated summary

CdTe colloidal quantum dots coated with glutathione were prepared for ultrasensitive Cu2+ sensing. A capillary sensor composed of CdTe CQDs was developed for real-time detection, featuring low cost, simple operation, and rapid results, which is significant for environmental and industrial wastewater monitoring.