Add to ORKGDetecting accurate concentrations of gas in environments with dynamically changing relative humidity conditions has been a challenge in gas sensing technology. We report a method to eliminate effects of humidity response in chemical-sensitive field-effect transistors using microheaters. Using a hydrogen gas sensor with Pt/FOTS active material as a test case, we demonstrate that a sensor response of 3844% to a relative humidity change of 50 to 90% at 25 °C can be reduced to a negligible response of 11.6% by utilizing microheaters. We also show the advantage of this technique in maintaining the same sensitivity in changing ambient temperatures and its application to the nitrogen dioxide gas sensors
This paper presents a high sensitivity CMOSMEMS humidity sensor based on electrothermal actuation fo...
Low-cost, one-step, and hydrothermal synthesized 3D reduced graphene oxide hydrogel (RGOH) is exploi...
Carbon nanotubes (CNTs) have shown promising results for gas sensing due to their high surface area....
Detecting accurate concentrations of gas in environments with dynamically changing relative humidity...
Despite the critical need to monitor H2S, a hazardous gas, in environmental and medical settings, th...
Generation of hydrogen represents a severe industrial hazard primarily because the mixture of hydrog...
Field-effect transistors with suspended gate are able to detect gas species if a sensitive film is u...
International audienceWe propose a novel technique to investigate the gas sensitivity of materials f...
Abstract—An LaF3 layer was shown to improve the character-istics of field-effect gas sensors for roo...
Abstract : We propose a novel technique to investigate the gas sensitivity of materials for implemen...
AbstractHighly sensitive hydrogen semiconductor gas sensor operating at room temperature is presente...
We report here on the results of a study on the response of copper oxide (p-type and mixed) based, l...
International audienceCadmium germanium oxynitrides are excellent sensing materials for the detectio...
This paper reports on the fabrication and characterization of a Complementary Metal Oxide Semiconduc...
AbstractThe aim of this work is to design and test an array of metal oxide gas sensors for reliable ...
This paper presents a high sensitivity CMOSMEMS humidity sensor based on electrothermal actuation fo...
Low-cost, one-step, and hydrothermal synthesized 3D reduced graphene oxide hydrogel (RGOH) is exploi...
Carbon nanotubes (CNTs) have shown promising results for gas sensing due to their high surface area....
Detecting accurate concentrations of gas in environments with dynamically changing relative humidity...
Despite the critical need to monitor H2S, a hazardous gas, in environmental and medical settings, th...
Generation of hydrogen represents a severe industrial hazard primarily because the mixture of hydrog...
Field-effect transistors with suspended gate are able to detect gas species if a sensitive film is u...
International audienceWe propose a novel technique to investigate the gas sensitivity of materials f...
Abstract—An LaF3 layer was shown to improve the character-istics of field-effect gas sensors for roo...
Abstract : We propose a novel technique to investigate the gas sensitivity of materials for implemen...
AbstractHighly sensitive hydrogen semiconductor gas sensor operating at room temperature is presente...
We report here on the results of a study on the response of copper oxide (p-type and mixed) based, l...
International audienceCadmium germanium oxynitrides are excellent sensing materials for the detectio...
This paper reports on the fabrication and characterization of a Complementary Metal Oxide Semiconduc...
AbstractThe aim of this work is to design and test an array of metal oxide gas sensors for reliable ...
This paper presents a high sensitivity CMOSMEMS humidity sensor based on electrothermal actuation fo...
Low-cost, one-step, and hydrothermal synthesized 3D reduced graphene oxide hydrogel (RGOH) is exploi...
Carbon nanotubes (CNTs) have shown promising results for gas sensing due to their high surface area....