Surface Acoustic Wave Hydrogen Sensors Based on Nanostructured Pd/WO₃ Bilayers
The effect of nanostructure of PLD (Pulsed Laser Deposition)-deposited Pd/WO₃ sensing films on room temperature (RT) hydrogen sensing properties of SAW (Surface Acoustic Wave) sensors was studied. WO₃ thin films with different morphologies and crystalline structures were obtained for different subst...
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Veröffentlicht in: | Sensors (Basel, Switzerland) Switzerland), 2018-10, Vol.18 (11), p.3636 |
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Sprache: | eng |
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Zusammenfassung: | The effect of nanostructure of PLD (Pulsed Laser Deposition)-deposited Pd/WO₃ sensing films on room temperature (RT) hydrogen sensing properties of SAW (Surface Acoustic Wave) sensors was studied. WO₃ thin films with different morphologies and crystalline structures were obtained for different substrate temperatures and oxygen deposition pressures. Nanoporous films are obtained at high deposition pressures regardless of the substrate temperature. At lower pressures, high temperatures lead to WO₃ c-axis nanocolumnar growth, which promotes the diffusion of hydrogen but only once H₂ has been dissociated in the nanoporous Pd layer. XRD (X-ray Diffraction) analysis indicates texturing of the WO₃ layer not only in the case of columnar growth but for other deposition conditions as well. However, it is only the predominantly c-axis growth that influences film sensing properties. Bilayers consisting of nanoporous Pd layers deposited on top of such WO₃ layers lead to good sensing results at RT. RT sensitivities of 0.12⁻0.13 Hz/ppm to hydrogen are attained for nanoporous bilayer Pd/WO₃ films and of 0.1 Hz/ppm for bilayer films with a nanocolumnar WO₃ structure. SAW sensors based on such layers compare favorably with WO₃-based hydrogen detectors, which use other sensing methods, and with SAW sensors with dense Pd/WO₃ bilayers. |
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ISSN: | 1424-8220 1424-8220 |
DOI: | 10.3390/s18113636 |