Add to ORKGThe usual operation of a conductometric sensor device requires of an external energy source (i.e. an embedded heater). In the last years, the Joule effect in the sensing material, the so called self-heating effect, offered and alternative method to provide this energy: the probing current (or voltage) applied to measure the sensor signal also serves to heat up the sensor active film. Here, evidences of self-heating effects occurring on large arrays of nanostructures fabricated with low-cost methods are provided. The methodology is proven to be suitable to sense gases (humidity, NH3 and NO2) with low-powered heater-free devices
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
One dimensional (1D) nanostructures offer a promising path towards highly efficient heating and temp...
The usual operation of a conductometric sensor device requires of an external energy source (i.e. an...
Herein, we prove that self-heating effects occur in sensor films made of randomly oriented nanoparti...
Herein, we prove that self-heating effects occur in sensor films made of randomly oriented nanoparti...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
Sensor signal instability and drift are still unresolved challenges in conductometric gas sensors. H...
Sensor signal instability and drift are still unresolved challenges in conductometric gas sensors. H...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
One dimensional (1D) nanostructures offer a promising path towards highly efficient heating and temp...
The usual operation of a conductometric sensor device requires of an external energy source (i.e. an...
Herein, we prove that self-heating effects occur in sensor films made of randomly oriented nanoparti...
Herein, we prove that self-heating effects occur in sensor films made of randomly oriented nanoparti...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Developing fully autonomous gas sensors for distributed detection and early alert applications is on...
Self-heating operation, or the use of the resistance-probing signal to warm up and control the tempe...
Sensor signal instability and drift are still unresolved challenges in conductometric gas sensors. H...
Sensor signal instability and drift are still unresolved challenges in conductometric gas sensors. H...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
The long duration of a working device with a limited battery capacity requires gas sensors with low ...
One dimensional (1D) nanostructures offer a promising path towards highly efficient heating and temp...