Add to ORKGMulti gas sensor systems are often the only way for increasing selectivity of a gas measurement in a given environment. It is known that the cycled heating of sensor membranes give the possibility for quantitative analysis of gas mixtures. In addition the integration of several thermally decoupled sensor elements with different gas sensitivities on one silicon chip is possible. On the other hand for hand held devices low power consumption is necessary. In this paper we present results on a microstructured silicon substrate with different gas sensors, each placed on a thermally insulated silicon membrane, optimised for cycled heating
We present a novel approach to produce a micromachined low cost hotplate gas sensor with reduced num...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...
Multi gas sensor systems are often the only way for increasing selectivity of a gas measurement in a...
Because of a steadily growing demand of low-cost gas sensors for use in automotive applications, for...
Because of a steadily growing demand of low-cost gas sensors for use in automotive applications, for...
We report on the design, fabrication, and characterisation of a microheater module for chemoresistiv...
The substrate plays a key role in chemoresistive gas sensors. It acts as mechanical support for the ...
Summary. The development of a silicon thermal gas sensor is presented as a tutorial. The sensor cons...
In recent years, research in the gas sensor field has experienced a significant boost [1]. Gas sens...
In the last years, the research in the gas sensor field experienced a significant boost. Gas sensors...
Solid state gas sensors show different sensitivities to specific analytes at different working tempe...
In the last years, the research in the gas sensor field experienced a significant boost. Gas sensors...
There is considerable interest in the development of low-cost, low-power resistive sensors for possi...
Silicon-based SnO2 gas sensors are commonly operated at relatively high temperatures (up to 400 °C a...
We present a novel approach to produce a micromachined low cost hotplate gas sensor with reduced num...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...
Multi gas sensor systems are often the only way for increasing selectivity of a gas measurement in a...
Because of a steadily growing demand of low-cost gas sensors for use in automotive applications, for...
Because of a steadily growing demand of low-cost gas sensors for use in automotive applications, for...
We report on the design, fabrication, and characterisation of a microheater module for chemoresistiv...
The substrate plays a key role in chemoresistive gas sensors. It acts as mechanical support for the ...
Summary. The development of a silicon thermal gas sensor is presented as a tutorial. The sensor cons...
In recent years, research in the gas sensor field has experienced a significant boost [1]. Gas sens...
In the last years, the research in the gas sensor field experienced a significant boost. Gas sensors...
Solid state gas sensors show different sensitivities to specific analytes at different working tempe...
In the last years, the research in the gas sensor field experienced a significant boost. Gas sensors...
There is considerable interest in the development of low-cost, low-power resistive sensors for possi...
Silicon-based SnO2 gas sensors are commonly operated at relatively high temperatures (up to 400 °C a...
We present a novel approach to produce a micromachined low cost hotplate gas sensor with reduced num...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...
The article presents a technology for manufacture of a gas sensor with a two-layer nanostructured di...