Litcius/Paper detail

Exploring the gas-sensing properties of MOF-derived TiN@CuO as a hydrogen sulfide sensor

Jesse Nii Okai Amu‐Darko, Shahid Hussain, Xiangzhao Zhang, Mohamed Ouladsmane, Eliasu Issaka, Salman Ali, Mingsong Wang, Guanjun Qiao

2023Chemosphere34 citationsDOIOpen Access PDF

Abstract

In an effort to develop a long-lasting gas sensor, this article presents titanium nitride (TiN) as a potential substitute sensitive material in conjunction with (copper(II) benzene-1,3,5-tricarboxylate) Cu-BTC-derived CuO. The work focused on the gas-sensing characteristics of TiN/CuO nanoparticles in detecting H 2 S gas at various temperatures and concentrations. XRD , XPS, and SEM were utilized to analyze the composites with varied Cu molar ratios. The responses of TiN/CuO-2 nanoparticles to 50 and 100 ppm H 2 S gas at 50 °C and 250 °C are 34.8 and 60.0, respectively. The related sensor had high selectivity and stability towards H 2 S, and the response of TiN/CuO-2 is still 2.5–5 ppm H 2 S. The gas-sensing properties as well as the mechanism are fully explained in this study. TiN/CuO might be a choice for the detection of H 2 S gas, opening up new avenues for applications in industries, medical facilities, and homes.

Topics & Concepts

TinHydrogen sulfide sensorHydrogen sulfideMaterials scienceTitanium nitrideCopperChemical engineeringNanoparticleSelectivityX-ray photoelectron spectroscopyInorganic chemistryNitrideNanotechnologyMetallurgyChemistrySulfurOrganic chemistryCatalysisLayer (electronics)EngineeringGas Sensing Nanomaterials and SensorsZnO doping and propertiesAnalytical Chemistry and Sensors