DocumentCode
165466
Title
ZnO Micro and Nanofibers made by electrospinning: Fabrication and Characterization
Author
Nonato, Renato C. ; Morales, Ana R. ; Vieira, Amanda F. M. ; Nista, Silvia V. G. ; Mei, Lucia H. I. ; Bonse, Baltus C.
Author_Institution
DEMBIO, Unicamp, Sao Paulo, Brazil
fYear
2014
fDate
18-21 Aug. 2014
Firstpage
820
Lastpage
824
Abstract
In this study, the best conditions to obtain Zinc Oxide (ZnO) nanofibers were studied for further development of a composite with a biopolymer for application in scaffolds. Although the electrospinning of ZnO nanofiber is already known, there are still new aspects to be explored to optimize itsproduction. In this work were prepared six different solutions of poly(vinyl alcohol) - PVA with two different molecular weight, containing ZnO precursor, i.e. Zinc Acetate, using water or a mix of water and alcohol as solvents, and tested to understand how solution characteristics influence the final morphology of the ZnO nanofibres. This paper shows promising results for production ceramic nanofibers by electrospinning since parameters as viscosity, molecular weight, concentration, conductivity and surface tension are well controlled.
Keywords
II-VI semiconductors; ceramics; electrical conductivity; electrospinning; nanofabrication; nanofibres; semiconductor growth; solutions; surface tension; viscosity; wide band gap semiconductors; zinc compounds; PVA; ZnO; biopolymer composite; ceramic nanofiber; electrical conductivity; electrospinning; microfiber; molecular weight; nanofibre morphology; poly(vinyl alcohol) solution; scaffold application; solution characteristics; solvent; surface tension; viscosity; zinc acetate; zinc oxide nanofiber; Calcination; Ceramics; Conductivity; Surface tension; Viscosity; Water; Zinc oxide; ZnO; ceramic nanofibers; electrospinning;
fLanguage
English
Publisher
ieee
Conference_Titel
Nanotechnology (IEEE-NANO), 2014 IEEE 14th International Conference on
Conference_Location
Toronto, ON
Type
conf
DOI
10.1109/NANO.2014.6967980
Filename
6967980
Link To Document