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Enhancement of sensitivity of Pd-based hydrogen-gas sensor by plasma exposure studied by wireless quartz resonator

Lianjie Zhou, Nobutomo Nakamura, Akira Nagakubo, Hirotsugu Ogi

2020Japanese Journal of Applied Physics12 citationsDOIOpen Access PDF

Abstract

Abstract Sensitivity of a hydrogen-gas sensor based on lattice expansion of palladium highly depends on the surface morphology of palladium. We find that the sensitivity can be significantly improved by exposing the as-deposited palladium film to low-power plasma. The hydrogen-gas detection was performed by a wireless-electrodeless AT-cut quartz-crystal resonator with 125 MHz fundamental resonance frequency. It detects hydrogen gas through bending deformation of the resonator caused by the volume expansion of palladium. The surface morphology of palladium film before and after the plasma treatment were analyzed using atomic force microscopy. The plasma treated palladium film exhibits a rougher surface, finer grains, voids, and grain boundary extension. Such morphology and structure changes along with defects induced by the ion bombardment during the plasma treatment strongly contribute to increase in hydrogen absorption rate and then the sensor sensitivity. We further investigate the thickness dependence of the sensitivity, revealing an optimum palladium film thickness of 300 nm.

Topics & Concepts

QuartzSensitivity (control systems)HydrogenPlasmaHydrogen sensorResonatorMaterials scienceOptoelectronicsAnalytical Chemistry (journal)ChemistryEnvironmental chemistryPhysicsEngineeringCatalysisElectronic engineeringPalladiumMetallurgyOrganic chemistryQuantum mechanicsGas Sensing Nanomaterials and SensorsAcoustic Wave Resonator TechnologiesAdvanced Chemical Sensor Technologies
Enhancement of sensitivity of Pd-based hydrogen-gas sensor by plasma exposure studied by wireless quartz resonator | Litcius