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Portable multiplexed ion-selective sensor for long-term and continuous irrigation water quality monitoring

Mojtaba Abdollahzadeh, Yujie Zhu, Bita Bayatsarmadi, Mikko Vepsäläinen, Amir Razmjou, Krishnan Murugappan, Theo Rodopoulos, Mohsen Asadnia

2024Computers and Electronics in Agriculture13 citationsDOIOpen Access PDF

Abstract

• Ni-HAB MOF sensor array provides exceptionally low drift in electrochemical sensors. • MOF-modified solid-contact sensors improve hydroponic nutrient monitoring. • K + , pH, and NO 3 - monitoring in a portable system enables long-term agricultural use. In agricultural contexts, the demand for continuous and precise measurement of multiple ions is crucial. While arrays of solid-contact ion-selective electrodes (SCEs) have been developed previously, there has been limited emphasis on their continuous and long-term monitoring of ions. Addressing this gap, our work introduces an innovative sensor array utilizing Ni-HAB MOF as an ion-to-electron transducer, enabling real-time detection of nitrate, potassium, and pH levels. The sensors exhibit exceptional stability, eliminating the need for frequent recalibration. For instance, the K + -selective sensor displays an unprecedentedly low potential drift of 0.05 µV/h, surpassing existing solid-contact sensors by two orders of magnitude. Similarly, the pH sensor demonstrates a drift of 0.3 µV/h, outperforming competitors by a factor of 100. The NO 3 - -selective sensor shows minimal drift at 0.5 µV/h, surpassing comparable sensors by a factor of ten. Additionally, the K + -selective sensor features a sensitivity of 57.8 mV/dec and a LOD of 1.9 µM, while the NO 3 - -selective sensor offers a sensitivity of 56.8 mV/dec and a LOD of 6.23 µM. Integrated into a portable array with wireless data transmission, this system enables real-time water quality monitoring in remote areas. Rigorous testing of the developed sensor array in a tailored complex agricultural solution confirms its selective response to target ions even in the presence of interfering ions. Importantly, pH fluctuations do not compromise the precision of the K + and NO 3 - - selective sensors, highlighting the system’s robustness in real-world agricultural settings.

Topics & Concepts

Term (time)MultiplexingWater qualityEnvironmental scienceContinuous monitoringRemote sensingComputer scienceReal-time computingEngineeringTelecommunicationsGeologyPhysicsEcologyOperations managementQuantum mechanicsBiologyAnalytical Chemistry and SensorsWater Quality Monitoring and AnalysisGas Sensing Nanomaterials and Sensors