AbstractSnO2 nanorods were successfully deposited on 3” Si/SiO2 wafers by inductively coupled plasma-enhanced chemical vapor deposition (PECVD) and a wafer-level patterning of nanorods layer for miniaturized solid state gas sensor fabrication were performed. Uniform needle-shape SnO2 nanorods in situ grown were obtained under catalyst- and high temperature treatment-free growth condition. These nanorods have an average diameter between 5 and 15 nm and a length of 160 to 300 nm. The SnO2-nanords based gas sensors were tested towards NH3 and CH3OH and gas sensing tests show remarkable response, showing promising and repeatable results compared with the SnO2 thin films gas sensors
International audienceGas detection is of great interest for many different applications such as dom...
SnO2 nanorod arrays have been deposited on 4 inch SiO2/Si and Si wafers and stainless steel substrat...
We fabricated a nanowire-based gas sensor using a simple method of growing SnO(2) nanowires bridging...
SnO2 nanorods were successfully deposited on 3″ Si/SiO2 wafers by inductively coupled plasma-enhance...
AbstractSnO2 nanorods were successfully deposited on 3” Si/SiO2 wafers by inductively coupled plasma...
Highly sensitive large-scale tin oxide (SnO2) nanostructures were grown on a glass substrate by ther...
Uniform SnO2 nanorod arrays have been deposited at low temperature by plasma-enhanced chemical vapor...
Tin oxide nanorods (NRs) are vapour synthesised at relatively lower temperatures than previously rep...
Uniform SnO 2 nanorod arrays have been deposited at low temperature by plasma-enhanced chemical vapo...
In past few decades due to fast industrialization and urbanization, the development of gas sensors h...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Abstract We report the effect of the fabric of the surface microstructure on the CO gas sensing prop...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
Metal oxide gas sensors have many advantages over other solid-state gas monitoring devices, includin...
In this research study, tin oxide (SnO2) nanomaterials were fabricated and characterized using the H...
International audienceGas detection is of great interest for many different applications such as dom...
SnO2 nanorod arrays have been deposited on 4 inch SiO2/Si and Si wafers and stainless steel substrat...
We fabricated a nanowire-based gas sensor using a simple method of growing SnO(2) nanowires bridging...
SnO2 nanorods were successfully deposited on 3″ Si/SiO2 wafers by inductively coupled plasma-enhance...
AbstractSnO2 nanorods were successfully deposited on 3” Si/SiO2 wafers by inductively coupled plasma...
Highly sensitive large-scale tin oxide (SnO2) nanostructures were grown on a glass substrate by ther...
Uniform SnO2 nanorod arrays have been deposited at low temperature by plasma-enhanced chemical vapor...
Tin oxide nanorods (NRs) are vapour synthesised at relatively lower temperatures than previously rep...
Uniform SnO 2 nanorod arrays have been deposited at low temperature by plasma-enhanced chemical vapo...
In past few decades due to fast industrialization and urbanization, the development of gas sensors h...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Abstract We report the effect of the fabric of the surface microstructure on the CO gas sensing prop...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
Metal oxide gas sensors have many advantages over other solid-state gas monitoring devices, includin...
In this research study, tin oxide (SnO2) nanomaterials were fabricated and characterized using the H...
International audienceGas detection is of great interest for many different applications such as dom...
SnO2 nanorod arrays have been deposited on 4 inch SiO2/Si and Si wafers and stainless steel substrat...
We fabricated a nanowire-based gas sensor using a simple method of growing SnO(2) nanowires bridging...