Journal
SYNTHETIC METALS
Volume 125, Issue 1, Pages 11-22Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/S0379-6779(01)00508-2
Keywords
processibility; non-conductive; conducting polymers; polyacetylene; polyaniline; nanofibers
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Since the initial discovery in 1977, that polyacetylene (CH)(x), now commonly known as the prototype conducting polymer, could be p- or n-doped either chemically or electronically to the metallic state, the development of the field of conducting polymers, synthetic metals, has continued to accelerate at an unexpectedly rapid rate and a variety of other conducting polymers and their derivatives have been discovered. Potential new science/technology has been developed. by combining the now well established field of electronic polymers (intrinsically conducting polymers - synthetic metals, when doped) with the emerging field of nanoscience (one dimension < 100 nm). A simple and inexpensive method is described for producing conducting patterns of electronic polymers on plastic and paper from computer-designed patterns. This method, Line Patterning, does not involve printing of the conducting polymers. The difference in hydrophobicity/hydrophilicty between a substrate and a line of regular toner printed on it by a non-modified, standard office laser printer results in conducting polymer areas separated by insulating, toner lines. (C) 2000 the Nobel Foundation. Reproduced with the kind permission of the Nobel Foundation.
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