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Synergistic Effect of Metal–Organic Frameworks and Metal Oxides for Ultrasensitive and ppb-Level NO <sub>2</sub> Detection at High Humidity

Yuxin Li, Hui Guo, Xinyi Sun, Lulu Zhou, Jing Hu

2025ACS Sensors6 citationsDOI

Abstract

Efficient NO 2 gas sensors are critical for environmental monitoring and industrial safety. However, the design of reliable NO 2 sensing materials with high activity and moisture resistance remains a challenge, primarily due to limited active sites and interference from high air humidity. In this paper, SnO 2 /ZIF-8 nanocomposites were prepared by leveraging the inherent moisture resistance and abundant active sites of ZIF-8 nanoparticles, as well as the good electronic migration capabilities of SnO 2 nanospheres. The synergistic effect between metal–organic frameworks and metal oxides enables the gas sensor to show an impressive response ( R g / R a = 85.95) to 1 ppm of NO 2 even in high-humidity conditions, with good selectivity. Additionally, the SnO 2 /ZIF-8 composite-based chemiresistive sensors exhibit a low limitation of detection (11 ppb), fast response/recovery time (57/75 s), and excellent long-term stability (over 35 days), rendering them highly suitable for practical NO 2 detection. Density functional theory (DFT) calculations have demonstrated that the loading of ZIF-8 nanoparticles can enhance the adsorption effect as well as promote charge transfer between NO 2 molecules and the SnO 2 nanospheres. The synthesis of this composite material provides new ideas for improving the detection ability of NO 2 at high humidity.

Topics & Concepts

Materials scienceAdsorptionNanocompositeNanotechnologyNanoparticleHumidityMoistureMetalComposite numberDensity functional theoryMoleculeChemical engineeringRational designBiosensorHigh resistanceElectrical resistance and conductanceResponse timeMetal-organic frameworkCharacterization (materials science)Gas Sensing Nanomaterials and SensorsMetal-Organic Frameworks: Synthesis and Applications2D Materials and Applications