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Data for the article entitled: "WO3 Thin-Film Optical Gas Sensors Based on Gasochromic Effect towards Low Hydrogen Concentrations"

Version 1.0

Mazur, Michał, 2023, "Data for the article entitled: "WO3 Thin-Film Optical Gas Sensors Based on Gasochromic Effect towards Low Hydrogen Concentrations"", https://doi.org/10.18150/1JFGJL, RepOD, V1

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Description

Files include the data presented in the manuscript entitled: "WO3 Thin-Film Optical Gas Sensors Based on Gasochromic Effect towards Low Hydrogen Concentrations", by Mazur et al., https://doi.org/10.3390/ma16103831

Fig. 1 presents X-ray diffraction patterns of WO3 thin films annealed at various temperatures.

Fig. 3 presents results of transmission spectra of WO3 thin films annealed at various temperatures.

Fig. 4 presents Tauc plots of WO3 thin films annealed at various temperatures with calculated optical energy band gaps.

Fig. 5 presents comparison of average transmission in the visible wavelength range, fundamental absorption edge, and optical band gap energies of WO₃ thin films annealed at various temperatures.

Fig. 6 presents transmission spectra during colouring of WO₃ thin films annealed at 473 K (Fig. 6a), 573 K (Fig. 6b) and 673 K (Fig. 6c) upon exposure to 200–1000 ppm H₂.

Fig. 7 presents variation in transmittance at 600 nm, 800 nm, and 900 nm during colouring/bleaching cycles of WO₃ thin films annealed at 473 K (Fig. 7a), 573 K (Fig. 7b) and 673 K (Fig. 7c) upon exposure to 200–1000 ppm H₂.

Fig. 8 presents transmission spectra during colouring of WO₃ thin film annealed at 673 K upon exposure to H₂ concentrations of 25 ppm to 1000 ppm.

Fig. 9 presents variation in transmittance at 600 nm, 800 nm, and 900 nm during colouring/bleaching cycles of WO₃ thin film annealed at 673 K upon exposure to H₂ concentrations of 25 to 1000 ppm.

Fig. 10 presents Variation in extinction coefficient in time during colouring of WO₃ thin film annealed at 673 K upon exposure to H₂ concentration of: 25 ppm (Fig. 10a) and 1000 ppm (Fig. 10b).

Fig. 11 presents Electron concentration in the function of time of the colouring cycle of WO₃ thin film annealed at 673 K calculated based on the results of the extinction coefficient.

(2023-12-19)

Subject

Chemistry; Physics; Other

Keyword

WO3, gas impulse magnetron sputtering, thin film, gasochromic properties, optical properties, annealing, optical hydrogen gas sensor

Related Publication

Michał Mazur, Paulina Kapuścik, Wiktoria Weichbrodt, Jarosław Domaradzki, Piotr Mazur, Małgorzata Kot, Jan Ingo Flege, WO3 thin-film optical gas sensors based on gasochromic effect towards low hydrogen concentrations, Materials 16 (2023) 3831, https://doi.org/10.3390/ma16103831 https://www.mdpi.com/1996-1944/16/10/3831 doi: 10.3390/ma16103831

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CC0 Creative Commons Zero 1.0

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		Figure1.txt Plain Text - 84.9 KB - Dec 20, 2023 - 2 Downloads MD5: 05723afbf580f44886b2c5e397fd41b6 License: CC0 Creative Commons Zero 1.0	Preview Download
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