Attempt to Apply Surface-Conductive PAN as a Precursor for aPAN Ionic Electroactive Polymer Gel Fabrication
Research and development
Authors:
- Żyłka Paweł
Institute of Electrical Engineering Fundamentals, Wrocław University of Technology, Wrocław, Poland - Koprowska Joanna
Scientific Department of Textile Chemistry and Products Modification, Textile Research Institute, Łódź, Poland
Nr DOI: 10.5604/12303666.1215523
 Full text | references | Abstract: Chemically activated polyacrylonitrile (aPAN) displays ionic electro-mechanically active polymer properties. Thin, gel-like fibre is a technically feasible form of aPAN, as it quickly shrinks or swells in response to a variation in electrolyte pH, soaking it in. A prerequisite for direct electrical stimulation of aPAN fibres through electrolysis–produced variations in pH is their electrical conductivity, commonly achieved by complex surface modification of already-formulated aPAN. The paper presents an alternative approach involving the exploitation of electro-conducting surface-modified PAN fibres as a precursor for fabrication of aPAN. The electrical conductivity of precursor PAN fibres was achieved by the chemical formation of a copper sulfide complex covering. |
Tags:
electroactive polymer, artificial muscle, activated polyacrylonitrile, electrical conductivity, sulfide, polymer gel.
Citation:
Żyłka P, Koprowska J. Attempt to Apply Surface-Conductive PAN as a Precursor for aPAN Ionic Electroactive Polymer Gel Fabrication.
FIBRES & TEXTILES in Eastern Europe 2016; 24, 5(119): 29-33. DOI: 10.5604/12303666.1215523