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Wide-range and high-accuracy wireless sensor with self-humidity compensation for real-time ammonia monitoring

Wen Lv, Jianhua Yang, Qingda Xu, Jaafar Abdul‐Aziz Mehrez, Jia Shi, Wenjing Quan, Hanyu Luo, Min Zeng, Nantao Hu, Tao Wang, Hao Wei, Zhi Yang

2024Nature Communications66 citationsDOIOpen Access PDF

Abstract

Real-time and accurate biomarker detection is highly desired in point-of-care diagnosis, food freshness monitoring, and hazardous leakage warning. However, achieving such an objective with existing technologies is still challenging. Herein, we demonstrate a wireless inductor-capacitor (LC) chemical sensor based on platinum-doped partially deprotonated-polypyrrole (Pt-PPy+ and PPy0) for real-time and accurate ammonia (NH3) detection. With the chemically wide-range tunability of PPy in conductivity to modulate the impedance, the LC sensor exhibits an up-to-180% improvement in return loss (S11). The Pt-PPy+ and PPy0 shows the p-type semiconductor nature with greatly-manifested adsorption-charge transfer dynamics toward NH3, leading to an unprecedented NH3 sensing range. The S11 and frequency of the Pt-PPy+ and PPy0-based sensor exhibit discriminative response behaviors to humidity and NH3, enabling the without-external-calibration compensation and accurate NH3 detection. A portable system combining the proposed wireless chemical sensor and a handheld instrument is validated, which aids in rationalizing strategies for individuals toward various scenarios. This work proposes a wireless inductor-capacitor chemical sensor with self-humidity compensation for real-time and accurate ammonia detection, providing a significant tool for individually rationalizing strategies toward various applications.

Topics & Concepts

Compensation (psychology)HumidityRange (aeronautics)Computer scienceWirelessReal-time computingAmmoniaWireless sensor networkEnvironmental scienceRemote sensingTelecommunicationsMaterials scienceChemistryComputer networkMeteorologyGeographyOrganic chemistryPsychoanalysisComposite materialPsychologyAdvanced Chemical Sensor TechnologiesGas Sensing Nanomaterials and SensorsBluetooth and Wireless Communication Technologies