# Improving the efficiency of gasochromic response by using a dual sample system with WO3 thin films with Pd and Pt catalysts

**Authors:** Wiktoria Weichbrodt, Des Gibson, Jarosław Domaradzki, Jarosław Serafińczuk, Michał Mazur

PMC · DOI: 10.1038/s41598-025-31815-3 · Scientific Reports · 2025-12-11

## TL;DR

This paper explores using a dual-sample system with WO3 thin films and Pd/Pt catalysts to improve hydrogen sensing efficiency and response speed.

## Contribution

The study introduces a novel dual-sample configuration that multiplies the gasochromic response in WO3-based systems for the first time.

## Key findings

- Pd-coated WO3 films showed faster response and recovery times than Pt-coated films.
- The dual-sample system significantly enhanced the gasochromic response compared to a single sample.
- The sensor exhibited high hydrogen selectivity and long-term stability over one year.

## Abstract

Hydrogen, when produced using renewable energy sources, is a zero-emission fuel that does not emit harmful pollutants. Therefore, it is increasingly being researched as an alternative to traditional fossil fuels, although it poses certain risks due to its explosive nature. Gasochromic materials such as tungsten oxide (WO\documentclass[12pt]{minimal}
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				\begin{document}$$_{3}$$\end{document}) thin films show promise for passive and remote hydrogen sensing. In this work the gasochromic reaction of WO\documentclass[12pt]{minimal}
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				\begin{document}$$_{3}$$\end{document} thin films with palladium and platinum catalysts, deposited by electron beam evaporation, was investigated using various sample configurations during measurements. Gasochromic measurements revealed that Pd-coated WO\documentclass[12pt]{minimal}
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				\begin{document}$$_{3}$$\end{document} thin films exhibited superior sensor response and faster response and recovery times compared to Pt-coated films, which demonstrated better long-term stability. The aim of this study was to investigate gasochromic properties of a novel configuration consisting of two samples simultaneously mounted on a holder, which enabled a multiplied gasochromic response compared to that of a single sample. Furthermore, this is the first time such an approach has been reported for WO\documentclass[12pt]{minimal}
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				\begin{document}$$_{3}$$\end{document}-based systems exhibiting gasochromic properties. Additional experiments confirmed the high selectivity of the sensor toward hydrogen and its excellent long-term stability even after one year. Moreover, in-situ X-ray Diffraction measurements were performed to gain insight into the structural changes occurring during the gasochromic reaction. A universal configuration offering a simple and effective way to significantly enhance gasochromic response was also proposed.

## Linked entities

- **Chemicals:** hydrogen (PubChem CID 783), WO3 (PubChem CID 14811), palladium (PubChem CID 23938), platinum (PubChem CID 23939)

## Full-text entities

- **Chemicals:** Pt (MESH:D010984), Pd (MESH:D010165), WO3 (-)

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12808309/full.md

## References

8 references — full list in the complete paper: https://tomesphere.com/paper/PMC12808309/full.md

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Source: https://tomesphere.com/paper/PMC12808309