Crystal morphology changes the gas sensing activity! A recent study by X. G. Han et al. evidences the crystal morphology influence on the sensing activity of metal oxides. The sensor response of SnO2 nanocrystals increases symbatly with increasing ratio of the high-energy {221} facets
Metal oxide gas sensors have many advantages over other solid-state gas monitoring devices, includin...
The structural stability of pure SnO2 nanoparticles and highly sensitive SnO2-SiO2 nanocomposites (0...
Gas sensors made from high-surface area metal-oxide nanoparticles are susceptible to thermal degrada...
Crystal morphology changes the gas sensing activity! A recent study by X. G. Han et al. evidences th...
Anisotropy is a basic property of single crystals. Dissimilar facets/surfaces have different geometr...
We report on the sensing behavior of SnO<sub>2</sub> shape controlled nanocrystals in order to evalu...
Metal oxide-based gas sensors are widely used due to its high sensitivity to harmful for human healt...
The gas-sensing mechanism of an n-type semiconductor (tin dioxide) gas sensor is reviewed in this pa...
The gas-sensing mechanism of an n-type semiconductor (tin dioxide) gas sensor is reviewed in this pa...
This paper presents an approach to improving the selectivity of gas sensors based on nanocrystalline...
This review article is focused on the description of metal oxide single crystalline nanostructures u...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
Among the various metal oxides, SnO<sub>2</sub> has been most widely exploited as a semiconductor ga...
A new theoretical model has been proposed, which can satisfactorily explain the reported experimenta...
A new theoretical model has been proposed, which can satisfactorily explain the reported experimenta...
Metal oxide gas sensors have many advantages over other solid-state gas monitoring devices, includin...
The structural stability of pure SnO2 nanoparticles and highly sensitive SnO2-SiO2 nanocomposites (0...
Gas sensors made from high-surface area metal-oxide nanoparticles are susceptible to thermal degrada...
Crystal morphology changes the gas sensing activity! A recent study by X. G. Han et al. evidences th...
Anisotropy is a basic property of single crystals. Dissimilar facets/surfaces have different geometr...
We report on the sensing behavior of SnO<sub>2</sub> shape controlled nanocrystals in order to evalu...
Metal oxide-based gas sensors are widely used due to its high sensitivity to harmful for human healt...
The gas-sensing mechanism of an n-type semiconductor (tin dioxide) gas sensor is reviewed in this pa...
The gas-sensing mechanism of an n-type semiconductor (tin dioxide) gas sensor is reviewed in this pa...
This paper presents an approach to improving the selectivity of gas sensors based on nanocrystalline...
This review article is focused on the description of metal oxide single crystalline nanostructures u...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
Among the various metal oxides, SnO<sub>2</sub> has been most widely exploited as a semiconductor ga...
A new theoretical model has been proposed, which can satisfactorily explain the reported experimenta...
A new theoretical model has been proposed, which can satisfactorily explain the reported experimenta...
Metal oxide gas sensors have many advantages over other solid-state gas monitoring devices, includin...
The structural stability of pure SnO2 nanoparticles and highly sensitive SnO2-SiO2 nanocomposites (0...
Gas sensors made from high-surface area metal-oxide nanoparticles are susceptible to thermal degrada...
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