Development of Novel Nanostructured Conducting PPy Fibres
Details
Polypyrrole (PPy) as a conducting polymer has potential applications in electrical and electronic devices. This book therefore aimed to produce novel polypyrrole fibres via the development of nanostructured conducting polypyrrole by fibre spinning of PPy and to investigate the formed fibres for applications such as actuators, e-textiles, batteries, sensors and biomedical areas. As a result polypyrrole fibres have been produced for the first time. Subsequent work sought to improve the properties of these first generation PPy fibres by increasing the molecular weight, addition of carbon nanotubes (CNTs) and addition of a supporting polymer (alginate). The use of the host polymer also enabled a new fibre spinning method to be developed that included an in situ polymerization process. The highest conductivity and Young's modulus of any conducting polymer based fibre reported to date was obtained by incorporating PPy into a CNT yarn. In summary, a range of novel fibres PPy materials have been developed for possible use in applications such as actuators, sensors, artificial muscles, batteries and biomedical applications.
Autorentext
Javad Foroughi received his PhD at the University of Wollongong, Australia in 2009. He completed his B.Sc. & M.Sc. at the Isfahan University of Technology in Iran. He research interests include organic conductors, nanomaterials, actuators, sensor, biomaterials, and electronic textiles. Dr. Javad Foroughi has published more than 27 papers.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783844323962
- Sprache Englisch
- Genre Chemie
- Größe H220mm x B150mm x T14mm
- Jahr 2011
- EAN 9783844323962
- Format Kartonierter Einband
- ISBN 3844323961
- Veröffentlichung 01.04.2011
- Titel Development of Novel Nanostructured Conducting PPy Fibres
- Autor Javad Foroughi , Geoffrey Spinks , Gordon Wallace
- Untertitel Fundametals, Preparation and Development of Nanostructured Conducting Polypyrrole Fibres
- Gewicht 364g
- Herausgeber LAP LAMBERT Academic Publishing
- Anzahl Seiten 232