Add to ORKGA thin film of palladium (200 å) was e-beam evaporated onto a quartz crystal used in a SQM-160 Microbalance from Sigma Instruments. The crystal was then successively exposed to different hydrogen pressures, in situ, and the change in the resonant frequency was recorded as a function of time. Hydrogen absorption by the Pd film can be obtained by the shift of the resonant frequency upon hydrogenation at different pressures. A 14 Hz shift is obtained when the Pd film is saturated with hydrogen at 10 Torr of pressure. The different faces of the Pd-H system are observed with this technique.status: publishe
In this work, palladium (Pd) thin films were prepared via RF sputtering method with various thickne...
This work presents the fabrication and characterization of a novel hydrogen-detecting micro-resonato...
International audienceIn order to improve the reliability of a Pd-MOS hydrogen sensor, we have studi...
Our research aims to use diffraction phase microscopy (DPM) to measure palladium lattice expansion c...
H2 sensing performance of novel Pd-Pt alloy films has been compared with those obtained by using Pd ...
International audienceWith predicted shortage of fossil energy resources and the increasing concern ...
To study the hydrogen storage materials in their thin film format provides a unique approach to inve...
The hydriding kinetics of Pd thin films has been investigated in detail. The in situ experimental te...
The electrical resistivity ρ of palladium (Pd) films prepared by using magnetron sputtering at diffe...
AbstractWith predicted shortage of fossil energy resources and the increasing concern towards enviro...
The review summarizes the results of the electrochemical studies on hydrogen absorption in Pd and Pd...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
Thin metallic films are particularly interesting as potential hydrogen storage materials as well as ...
Many sensors for hydrogen use palladium as a sensing material due to its selective reaction with th...
The focus of this bachelor thesis was on modifying vacuum chamber to study two different physical to...
In this work, palladium (Pd) thin films were prepared via RF sputtering method with various thickne...
This work presents the fabrication and characterization of a novel hydrogen-detecting micro-resonato...
International audienceIn order to improve the reliability of a Pd-MOS hydrogen sensor, we have studi...
Our research aims to use diffraction phase microscopy (DPM) to measure palladium lattice expansion c...
H2 sensing performance of novel Pd-Pt alloy films has been compared with those obtained by using Pd ...
International audienceWith predicted shortage of fossil energy resources and the increasing concern ...
To study the hydrogen storage materials in their thin film format provides a unique approach to inve...
The hydriding kinetics of Pd thin films has been investigated in detail. The in situ experimental te...
The electrical resistivity ρ of palladium (Pd) films prepared by using magnetron sputtering at diffe...
AbstractWith predicted shortage of fossil energy resources and the increasing concern towards enviro...
The review summarizes the results of the electrochemical studies on hydrogen absorption in Pd and Pd...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
Thin metallic films are particularly interesting as potential hydrogen storage materials as well as ...
Many sensors for hydrogen use palladium as a sensing material due to its selective reaction with th...
The focus of this bachelor thesis was on modifying vacuum chamber to study two different physical to...
In this work, palladium (Pd) thin films were prepared via RF sputtering method with various thickne...
This work presents the fabrication and characterization of a novel hydrogen-detecting micro-resonato...
International audienceIn order to improve the reliability of a Pd-MOS hydrogen sensor, we have studi...