The development of a paper-based distance sensor for the detection of Pb2+assisted with the target-responsive DNA hydrogel

Due to the serious risks of lead pollution to human health, it plays a great role in constructing a simple, inexpensive, portable, and user-friendly strategy for Pb2+ detection in environmental samples. Herein, a paper-based distance sensor is developed to detect Pb2+ assisted with the target-responsive DNA hydrogel. Pb2+ can activate DNAzyme to cleave its substrate strand, which results in the hydrolysis of the DNA hydrogel. The released water molecules trapped in the hydrogel can flow along the patterned pH paper due to the capillary force. The water flow distance (WFD) is significantly influenced by the amount of water released from the collapsed DNA hydrogel triggered by the addition of various Pb2+ concentrations. In this way, Pb2+ can be quantitatively detected without using specialized instruments and labeled molecules, and the limit of detection (LOD) of Pb2+ is 3.0 nM. Additionally, the Pb2+ sensor works well in lake water and tap water. Overall, this simple, inexpensive, portable, and user-friendly method is very promising for quantitative and in-field detection of Pb2+ with excellent sensitivity and selectivity.

Automated summary

Due to the serious risks of lead pollution to human health, a simple, inexpensive, portable, and user-friendly paper-based distance sensor is developed to detect Pb2+ in environmental samples. The detected Pb2+ can activate DNAzyme to cleave its substrate strand, resulting in the hydrolysis of DNA hydrogel and the release of water molecules. The released water molecules can flow along the patterned pH paper, and the water flow distance is significantly influenced by the Pb2+ concentration. This method allows for quantitative and in-field detection of Pb2+ with a LOD of 3.0 nM, and it works well in lake water and tap water.