Add to ORKGAbstract. Semiconductive — resistive sensors of toxic and explosive gases were fabricated from nanograins of SnO2 using thick-film technology. Sensitivity, selectivity and stability of sensors working in different temperature depend on the way the tin dioxide and additives were prepared. A construction also plays an important role. The paper presents an attitude towards the evaluation of transport of electrical charges in semiconductive grain layer of SnO2, when dangerous gases appear in the surrounding atmosphere
We report developing a SnO2 thick-film gas sensor deposited by screen printing onto a micromachined ...
Porous nano and micro crystalline tin oxide films were deposited by RF Magnetron Sputtering and doct...
Chemical sensors do often consist of n-semiconducting metal oxides, predominantly tindioxide (SnO_2)...
Usually a thick-film gas sensor means a metal-oxide semiconductor sensor obtained by thick-film scre...
This project is aimed at semiconductive gas sensors based on tin dioxide. In the first part, gas sen...
International audienceRecently, oxide semiconductor material used as transducer has been the central...
Tin dioxide (SnO2) is the singular, most important material utilised in commercially manufactured se...
Proceedings of the International Conference on Science and Science Education August 2015, p. SC.149-...
Chemical routes such as sol–gel techniques and thermal decomposition of heteronuclear complexes have...
This work demonstrates the variability in performance between SnO2 thick film gas sensors prepared u...
Tin dioxide was the first material used to fabricate gas sensors, though many other metal oxides hav...
This research is focused on structural and electrical characterisation of tin oxide (SnO2) applied a...
Nanocrystalline tin dioxide has been employed to develop two types of sensor devices. Two electrical...
In the human life, there are several areas, where chemical sensors are necessary. Such are medical c...
We report developing a SnO2 thick-film gas sensor deposited by screen printing onto a micromachined ...
We report developing a SnO2 thick-film gas sensor deposited by screen printing onto a micromachined ...
Porous nano and micro crystalline tin oxide films were deposited by RF Magnetron Sputtering and doct...
Chemical sensors do often consist of n-semiconducting metal oxides, predominantly tindioxide (SnO_2)...
Usually a thick-film gas sensor means a metal-oxide semiconductor sensor obtained by thick-film scre...
This project is aimed at semiconductive gas sensors based on tin dioxide. In the first part, gas sen...
International audienceRecently, oxide semiconductor material used as transducer has been the central...
Tin dioxide (SnO2) is the singular, most important material utilised in commercially manufactured se...
Proceedings of the International Conference on Science and Science Education August 2015, p. SC.149-...
Chemical routes such as sol–gel techniques and thermal decomposition of heteronuclear complexes have...
This work demonstrates the variability in performance between SnO2 thick film gas sensors prepared u...
Tin dioxide was the first material used to fabricate gas sensors, though many other metal oxides hav...
This research is focused on structural and electrical characterisation of tin oxide (SnO2) applied a...
Nanocrystalline tin dioxide has been employed to develop two types of sensor devices. Two electrical...
In the human life, there are several areas, where chemical sensors are necessary. Such are medical c...
We report developing a SnO2 thick-film gas sensor deposited by screen printing onto a micromachined ...
We report developing a SnO2 thick-film gas sensor deposited by screen printing onto a micromachined ...
Porous nano and micro crystalline tin oxide films were deposited by RF Magnetron Sputtering and doct...
Chemical sensors do often consist of n-semiconducting metal oxides, predominantly tindioxide (SnO_2)...