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- Title
Determination of Hydrogen Sulphide in Air with an Indium Oxide Semiconductor Sensor.
- Authors
Shaposhnik, A. V.; Zviagin, A. A.; Ryabtsev, S. V.
- Abstract
Hydrogen sulfide, a toxic gas, can be released into the air during oil and natural gas extraction, metallurgical production, and the storage and processing of industrial and household wastes. The determination of hydrogen sulfide in the atmosphere is a pertinent task in analytical chemistry. The established methods, such as chromatography or mass spectrometry, are unsuitable for continuous monitoring in hard-to-reach places. This creates a practical need for a low-cost chemical sensor that offers high sensitivity and selectivity. In this study, gas-sensitive materials based on In2O3 with catalytic additives—primarily palladium (as PdO) and silver (as Ag2O)—were synthesized. The synthesis proceeded in several stages. Initially, an In(OH)3 sol was prepared, followed by centrifugation and thermal treatment to yield indium oxide nanopowder. The material was characterized by transmission electron microscopy (TEM) and X-ray powder diffraction. Subsequently, the indium oxide nanopowder was blended with catalytic additives and a binder to form a paste. The gas-sensitive material was obtained by annealing the paste at 750°C. The sensor properties of these gas-sensitive materials were investigated with respect to hydrogen sulfide and carbon monoxide under nonstationary temperature conditions: heating to 450°C for 2 s and cooling to 100°C for 13 s. The study demonstrated that nanodispersed indium oxide-based materials exhibit high sensitivity to hydrogen sulfide and exceptional selectivity.
- Subjects
INDIUM oxide; NATURAL gas extraction; X-ray powder diffraction; HYDROGEN sulfide; MANUFACTURING processes
- Publication
Journal of Analytical Chemistry, 2024, Vol 79, Issue 9, p1338
- ISSN
1061-9348
- Publication type
Article
- DOI
10.1134/S1061934824700709