Microfluidic sensor integrated with nanochannel liquid conjunct Ag/AgCl reference electrode for trace Pb(II) measurement

Pollution due to heavy metals is becoming increasingly hazardous; therefore, demand for the large-scale deployment of sensor nodes for water quality monitoring has increased. The development of integrated and miniaturised sensors for detecting heavy metals is necessary. Herein, an integrated microfluidic sensor based on a glass-silicon-glass sandwich structure is proposed for Pb2+ detection. This microsensor consists of a nanochannel liquid conjunct Ag/AgCl reference electrode(RE), a working electrode with a three-dimensional Au micropillar array, and a detection chamber for sample measurement. The potential fluctuation of the RE in this sensor was only 0.62% over seven days, remaining relatively stable. Under optimal conditions, the limit of detection and sensitivity for lead were 0.13 mu g L-1 (S/N = 3) and 52.30 nA (mu g L-1)(-1), respectively. The linearity of the sensor for detecting lead was good in the concentration range of 0.50-150 mu g L-1 (R-2 = 0.9989). Moreover, the proposed microsensor showed high selectivity for Pb2+ and achieved sensitive detection of trace Pb2+ in different water samples. Therefore, this integrated and miniaturised sensor is a practical tool for trace lead detection, allowing the development of large scale sensor network for water monitoring. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

An integrated microfluidic sensor for Pb2+ detection was proposed, with stable performance and high sensitivity, suitable for trace lead detection in water monitoring.