Yiheng Qin
2018
Integrated water quality monitoring system with pH, free chlorine, and temperature sensors
Yiheng Qin,
Arif Ul Alam,
Si Pan,
M. M. R. Howlader,
Raja Ghosh,
Nan-Xing Hu,
Hao Jin,
Shurong Dong,
Chih‐Hung Chen,
M. Jamal Deen
Sensors and Actuators B: Chemical, Volume 255
Abstract Accurate, efficient, inexpensive, and multi-parameter monitoring of water quality parameters is critical for continued water safety from developed urban regions to resource-limited or sparsely populated areas. This study describes an integrated sensing system with solution-processed pH, free chlorine, and temperature sensors on a common glass substrate. The pH and temperature sensors are fabricated by low-cost inkjet printing of palladium/palladium oxide and silver. The potentiometric pH sensor has a high sensitivity of 60.6 mV/pH and a fast response of 15 s. The Wheatstone-bridge-based temperature sensor shows an immediate response of 3.35 mV/°C towards temperature change. The free chlorine sensor is based on an electrochemically modified pencil lead, which exhibits a stable and reproducible sensitivity of 342 nA/ppm for hypochlorous acid. Such a free chlorine sensor is potentiostat-free and calibration-free, so it is easy-to-use. The three sensors are connected to a field-programmable gate array board for data collection, analysis and display, with real-time pH and temperature compensation for free chlorine sensing. The developed sensing system is user-friendly, cost-effective, and can monitor water samples in real-time with an accuracy of >82%. This platform enables water quality monitoring by nonprofessionals in a simple manner.
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Co-authors
- Arif Ul Alam 1
- Si Pan 1
- M. M. R. Howlader 1
- Raja Ghosh 1
- Nan-Xing Hu 1
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