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InSe-Based Sensors and Related Sensing Systems for NO<sub>2</sub> Gas/Temperature Monitoring

Mingyang Gao, Bohang Zhang, Xinyuan Du, Xueqian Yang, Chunxue Zhai, Cheng Chen, Zhiyong Zhang, Wu Zhao

2025ACS Sensors18 citationsDOI

Abstract

High-sensitivity, multiparameter sensing is increasingly critical for environmental monitoring and electronics. Existing sensing platforms struggle to integrate precise, rapid, and stable monitoring of parts per billion-level hazardous gases and temperature within a single miniaturized device. This study developed a novel sensor based on two-dimensional (2D) indium selenide (InSe), complemented by first-principles density functional theory calculations elucidating the layer-dependent NO 2 adsorption mechanism. The sensor demonstrated exceptional dual-mode performance, achieving a 103.40% response to 2 ppm of NO 2 alongside a broad temperature detection range (25–150 °C) with high sensitivity. To enable practical applications, we further integrated the sensor into a portable intelligent monitoring system that features signal acquisition, processing, and alarm. This integrated bifunctional platform significantly advances miniaturized, multiparameter sensing technology, offering a powerful solution for next-generation environmental monitors and devices.

Topics & Concepts

Environmental monitoringComputer scienceHazardous wasteBifunctionalSelenideSIGNAL (programming language)Range (aeronautics)Environmental scienceNanotechnologyIntelligent sensorEmbedded systemSystems engineeringReal-time computingWireless sensor networkAdsorptionProcess engineeringContinuous monitoringSignal processingMaterials scienceElectro-optical sensorRemote sensingProximity sensorIndiumGas Sensing Nanomaterials and SensorsAdvanced Chemical Sensor TechnologiesAnalytical Chemistry and Sensors
InSe-Based Sensors and Related Sensing Systems for NO<sub>2</sub> Gas/Temperature Monitoring | Litcius