Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the development of nano-devices. Tin, indium, and zinc oxides were produced in form of single-crystalline nanowires through condensation from vapor phase. Such a growth occurs in controlled thermodynamical condition and size reduction effects on the electrical and optical response to gases have been exploited. Preparation, microstructural, and electrical characterization of nanowires are presented and the peculiarities of these innovative structures are highlighted. © 2006 Elsevier B.V. All rights reserved
Single crystal nanostructures of semiconducting tin oxides have been fabricated and characterized as...
A comparison is made between SnO2, ZnO, and TiO2 single-crystal nanowires and SnO2 polycrystalline n...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Interest in nanowires of metal oxide oxides has been exponentially growing in the last years, due to...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
This article provides a comprehensive review of recent (2008 and 2009) progress in gas sensors based...
Day by day, the demand for portable, low cost, and efficient chemical/gas-sensing devices is increas...
The continuous evolution of nanotechnology in these years led to the production of quasi-one dimensi...
Quasi-one-dimensional nanostructures (so-called nanobelts or nanowires) of tin dioxide, obtained by ...
Quasi 1-dimensional nanostructures of indium- and tin- oxide are presently produced in several unusu...
Low dimensional nanostructures have defined the frontier of the research in material science for the...
Recent advances in the field of nanotechnology have led to the synthesis and characterization of an ...
Progress has been achieved in the synthesis, structural characterization and physical properties inv...
Single crystal nanostructures of semiconducting tin oxides have been fabricated and characterized as...
A comparison is made between SnO2, ZnO, and TiO2 single-crystal nanowires and SnO2 polycrystalline n...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Interest in nanowires of metal oxide oxides has been exponentially growing in the last years, due to...
The results of research aimed at the gas sensing nanowires (NWs) engineering are presented. Structur...
Abstract – The results of research aimed at the gas sensing nanowires (NWs) engineering are presente...
This article provides a comprehensive review of recent (2008 and 2009) progress in gas sensors based...
Day by day, the demand for portable, low cost, and efficient chemical/gas-sensing devices is increas...
The continuous evolution of nanotechnology in these years led to the production of quasi-one dimensi...
Quasi-one-dimensional nanostructures (so-called nanobelts or nanowires) of tin dioxide, obtained by ...
Quasi 1-dimensional nanostructures of indium- and tin- oxide are presently produced in several unusu...
Low dimensional nanostructures have defined the frontier of the research in material science for the...
Recent advances in the field of nanotechnology have led to the synthesis and characterization of an ...
Progress has been achieved in the synthesis, structural characterization and physical properties inv...
Single crystal nanostructures of semiconducting tin oxides have been fabricated and characterized as...
A comparison is made between SnO2, ZnO, and TiO2 single-crystal nanowires and SnO2 polycrystalline n...
Strategies for the enhancement of gas sensing properties, and specifically the improvement of gas se...