What question did this study set out to answer?

The aim is to evaluate how mechanoactivation affects the performance of indium oxide gas sensors.

April 25, 2026Open Access

Mechanoactivation of Indium Oxide-Based Gas Sensors for Efficiency Enhancement

Key Points

The aim is to evaluate how mechanoactivation affects the performance of indium oxide gas sensors.
Indium oxide was mechanically activated and analyzed for structural and morphological changes.
The specific surface area and material diffusion properties were assessed post-treatment.
Reactivity with various gases was tested and analyzed.
Mechanoactivation led to defective particle surfaces and increased surface area.
Significant enhancement in gas reactivity was observed due to changes in grain structure and new adsorption sites.
Results indicate that mechanoactivation can effectively improve the efficiency of gas sensors.

Abstract

Indium oxide was mechanically activated, and its effect on the operation of semiconductor gas-sensitive devices was evaluated. The structural and morphological characteristics of In2O3 following mechanical activation were examined. The powder treatment produced a defective particle surface structure, enhanced specific surface area, and improved material diffusion properties. Experimental evidence indicates a substantial enhancement in the reactivity of indium oxide with diverse gases, stemming from alterations in grain structure and the formation of novel adsorption sites. The results obtained demonstrate that mechanoactivation is a promising technological tool for the development of energy-efficient sensors.

Mechanoactivation of Indium Oxide-Based Gas Sensors for Efficiency Enhancement

Key Points

Abstract

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