The development of low-cost and high performing hydrogen gas sensors is important across many sectors, including mining, energy and defense using hydrogen (H2) gas. Herein, we demonstrate a new concept of H2 sensors based on Pd/Cr nanogaps created by using a simple mechanical bending deformation technique. These nanogap sensors can selectively detect the H2 gas based on transduction of the volume expansion after H2 uptake into an electrical signal by palladium-based metal-hydrides that allows closure of nanogaps for electrons flowing or tunneling. While this break-junction architecture, according to literature, can provide several advantages with research gaps in terms of fabricating nanogap sensors with ultra-fast response (≤4 s), the size...
Palladium nanowires were fabricated on silicon substrates using conventional microfabrication techni...
A hydrogen sensor based on large arrays of nanoswitches in palladium (Pd) is presented. An individua...
PubMed: 30645256In this study, a nanoscale sensor on a metal-insulator-metal (MIM) platform was stud...
The widespread use of H<sub>2</sub> gas as an energy carrier will necessitate the development of ine...
Isolated palladium nanostructures expand when they are exposed to hydrogen gas, and the gaps between...
Hydrogen (H2), as a chemical energy carrier, is a cleaner alternative to conventional fossil fuels w...
This paper reports a novel hydrogen sensor based on an array of single suspended carbon nanowires (?...
Flexible palladium-based H<sub>2</sub> sensors have a great potential in advanced sensing applicatio...
Hydrogen gas is rapidly approaching a global breakthrough as a carbon-free energy vector. In such a ...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
This study reports the development of a novel hydrogen gas sensor based on an array of single suspen...
We present a highly sensitive H2 sensor based on a single Pd-functionalized carbon nanowire suspende...
We developed an ultra-low power MEMS hydrogen (H2) sensor performing high dynamics together with hig...
AbstractWe developed an ultra-low power MEMS hydrogen (H2) sensor performing high dynamics together ...
This study proposes a reliable and self-powered hydrogen (H-2) gas sensor composed of a chemo-mechan...
Palladium nanowires were fabricated on silicon substrates using conventional microfabrication techni...
A hydrogen sensor based on large arrays of nanoswitches in palladium (Pd) is presented. An individua...
PubMed: 30645256In this study, a nanoscale sensor on a metal-insulator-metal (MIM) platform was stud...
The widespread use of H<sub>2</sub> gas as an energy carrier will necessitate the development of ine...
Isolated palladium nanostructures expand when they are exposed to hydrogen gas, and the gaps between...
Hydrogen (H2), as a chemical energy carrier, is a cleaner alternative to conventional fossil fuels w...
This paper reports a novel hydrogen sensor based on an array of single suspended carbon nanowires (?...
Flexible palladium-based H<sub>2</sub> sensors have a great potential in advanced sensing applicatio...
Hydrogen gas is rapidly approaching a global breakthrough as a carbon-free energy vector. In such a ...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
This study reports the development of a novel hydrogen gas sensor based on an array of single suspen...
We present a highly sensitive H2 sensor based on a single Pd-functionalized carbon nanowire suspende...
We developed an ultra-low power MEMS hydrogen (H2) sensor performing high dynamics together with hig...
AbstractWe developed an ultra-low power MEMS hydrogen (H2) sensor performing high dynamics together ...
This study proposes a reliable and self-powered hydrogen (H-2) gas sensor composed of a chemo-mechan...
Palladium nanowires were fabricated on silicon substrates using conventional microfabrication techni...
A hydrogen sensor based on large arrays of nanoswitches in palladium (Pd) is presented. An individua...
PubMed: 30645256In this study, a nanoscale sensor on a metal-insulator-metal (MIM) platform was stud...