Add to ORKGLow dimensional nanostructures have defined the frontier of the research in material science for the last two decades. Presented here are the results of experimental research on growth, device fabrication and application of quasi-one dimensional phthalocyanines and metal oxides to gas-sensing. The possibility of rational tuning of the growth conditions, in order to control composition, morphology, size, orientation and alignment of the grown low-dimensional nanostructures was investigated. Employing custom designed heating stages coupled with optical microscope the in situ approach of monitoring the growth of nanostructures has been realized. Using this method, the growth of VO2 nanowires and nanoplatelets have been investigated and two nov...
Day by day, the demand for portable, low cost, and efficient chemical/gas-sensing devices is increas...
Gas sensors are indispensable aspects of our life as it warns us about the dangerous gases in our en...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
Quasi-one-dimensional nanostructures (so-called nanobelts or nanowires) of tin dioxide, obtained by ...
A comparison is made between SnO2, ZnO, and TiO2 single-crystal nanowires and SnO2 polycrystalline n...
AbstractGas detection experiments were performed with individual tin dioxide (SnO2) nanowires specif...
Metal oxide nanowires are very promising active materials for different applications, especially in ...
Low dimensional semiconductors are promising materials with diverse range of applications in a varie...
Mimicking the biological olfactory systems that consist of olfactory receptor arrays with large surf...
ZnO nanotetrapods have recently been exploited for the realization of high-sensitivity gas sensors,...
It is almost a decade since the first presentation of metal oxide nanowires as chemical sensors. Sig...
Chemical/gas sensors are playing and will play a crucial role in smart building, smart houses, envir...
Day by day, the demand for portable, low cost, and efficient chemical/gas-sensing devices is increas...
Gas sensors are indispensable aspects of our life as it warns us about the dangerous gases in our en...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
Quasi-one-dimensional nanostructures (so-called nanobelts or nanowires) of tin dioxide, obtained by ...
A comparison is made between SnO2, ZnO, and TiO2 single-crystal nanowires and SnO2 polycrystalline n...
AbstractGas detection experiments were performed with individual tin dioxide (SnO2) nanowires specif...
Metal oxide nanowires are very promising active materials for different applications, especially in ...
Low dimensional semiconductors are promising materials with diverse range of applications in a varie...
Mimicking the biological olfactory systems that consist of olfactory receptor arrays with large surf...
ZnO nanotetrapods have recently been exploited for the realization of high-sensitivity gas sensors,...
It is almost a decade since the first presentation of metal oxide nanowires as chemical sensors. Sig...
Chemical/gas sensors are playing and will play a crucial role in smart building, smart houses, envir...
Day by day, the demand for portable, low cost, and efficient chemical/gas-sensing devices is increas...
Gas sensors are indispensable aspects of our life as it warns us about the dangerous gases in our en...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...