Add to ORKGThe present invention provides a delay line SAW device fabricated on a lithium niobate substrate and coated with a bilayer of nanocrystalline or other nanomaterials such as nanoparticles or nanowires of palladiumn and metal free pthalocyanine which will respond to hydrogen gas in near real time, at low (room) temperature, without being affected by CO, O2, CH4 and other gases, in air ambient or controlled ambient, providing sensitivity to low ppm levels
Abstract—Electro-conductive polyaniline (PANI) nanofiber based Surface Acoustic Wave (SAW) gas senso...
This paper presents a hydrogen gas sensor based on Double Surface Acoustic Wave Resonator (DSAWR) sy...
Presented here are the results concerning an investigations of sensor properties of a single and bi...
The present invention provides a delay line SAW device fabricated on a lithium niobate substrate and...
This thesis addresses the development of new gas sensor using surface acoustic wave (SAW) technology...
Palladium (Pd) nanoparticles (5–20 nm) are used as the sensing layer on surface acoustic wave (SAW) ...
International audienceFor an increasing number of applications, hydrogen represents a solution of th...
International audienceThe nanostructured palladium–platinum (PdPt) catalyst and the Surface Acoustic...
This thesis addresses the design and use of suitable nanomaterials and surface acoustic wave sensors...
AbstractHere we report on a layered Surface Acoustic Wave (SAW) gas sensor featuring polyethylanilin...
A double SAW resonator system was developed as a novel method for gas sensing applications. The prop...
Abstract — Palladium (Pd) nano-wires were synthesized by electro chemical deposition technique. Pd n...
International audienceBecause of its physicochemical properties, hydrogen appears as an efficient so...
A delay-line-type surface acoustic wave (SAW) sensor based on a zinc oxide (ZnO) sensitive layer was...
Palladium (Pd) nanowires were synthesized by electro chemical deposition technique. Pd nanowires wer...
Abstract—Electro-conductive polyaniline (PANI) nanofiber based Surface Acoustic Wave (SAW) gas senso...
This paper presents a hydrogen gas sensor based on Double Surface Acoustic Wave Resonator (DSAWR) sy...
Presented here are the results concerning an investigations of sensor properties of a single and bi...
The present invention provides a delay line SAW device fabricated on a lithium niobate substrate and...
This thesis addresses the development of new gas sensor using surface acoustic wave (SAW) technology...
Palladium (Pd) nanoparticles (5–20 nm) are used as the sensing layer on surface acoustic wave (SAW) ...
International audienceFor an increasing number of applications, hydrogen represents a solution of th...
International audienceThe nanostructured palladium–platinum (PdPt) catalyst and the Surface Acoustic...
This thesis addresses the design and use of suitable nanomaterials and surface acoustic wave sensors...
AbstractHere we report on a layered Surface Acoustic Wave (SAW) gas sensor featuring polyethylanilin...
A double SAW resonator system was developed as a novel method for gas sensing applications. The prop...
Abstract — Palladium (Pd) nano-wires were synthesized by electro chemical deposition technique. Pd n...
International audienceBecause of its physicochemical properties, hydrogen appears as an efficient so...
A delay-line-type surface acoustic wave (SAW) sensor based on a zinc oxide (ZnO) sensitive layer was...
Palladium (Pd) nanowires were synthesized by electro chemical deposition technique. Pd nanowires wer...
Abstract—Electro-conductive polyaniline (PANI) nanofiber based Surface Acoustic Wave (SAW) gas senso...
This paper presents a hydrogen gas sensor based on Double Surface Acoustic Wave Resonator (DSAWR) sy...
Presented here are the results concerning an investigations of sensor properties of a single and bi...