| Conţinutul numărului revistei |
| Articolul precedent |
| Articolul urmator |
 765 0 |
 SM ISO690:2012PAULOWICZ, Ingo, HRKAC, Viktor, KAPS, Soren, CREŢU, Vasilii, LUPAN, Oleg, BRANISTE, Tudor, DUPPEL, Viola, TIGINYANU, Ion, KIENLE, Lorenz, ADELUNG, Rainer, MISHRA, Yogendra Kumar. Three-Dimensional SnO2 Nanowire Networks for Multifunctional Applications: From High-Temperature Stretchable Ceramics to Ultraresponsive Sensors. In: Advanced Electronic Materials, 2015, vol. 1, p. 0. ISSN 2199-160X. DOI: https://doi.org/10.1002/aelm.201500081 |
| EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
  Advanced Electronic Materials |
||||||
| Volumul 1 / 2015 / ISSN 2199-160X | ||||||
|
||||||
| DOI:https://doi.org/10.1002/aelm.201500081 | ||||||
| Pag. 0-0 | ||||||
|
||||||
| Rezumat | ||||||
Stretchable ceramic networks built from quasi-one-dimensional (Q1D) structures are important candidates for various applications of nanostructures in real-world technologies. A flame transport synthesis approach is developed that enables versatile synthesis of interconnected SnO2 nanowire networks. These SnO2 structures exhibit interesting defects that are very relevant for the oxide material-engineering community. Devices based on Q1D SnO2 structure networks show enormous potential for gas/UV sensing. |
||||||
| Cuvinte-cheie Electron microscopy, Flexible ceramics, Photodetector, sensor, SnO2 nanowire networks |
||||||
|
|
|
|
