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POLYANILINE, AIR-STABLE ORGANIC METAL - FACT, NO LONGER FICTION

Monkman, AP; Adams, PN; Laughlin, PJ; Holland, ER

Authors

PN Adams

PJ Laughlin

ER Holland



Abstract

Via improved chemistry we have increased the maximum attainable conductivity in oriented polyaniline. D.C. conductivity's approaching 10(4) Scm(-1) have been measured. Temperature dependent transport measurements reveal that our new polyaniline behaves in a similar fashion to high conductivity polyacetylene and can be modelled in the same way. However we do observe strongly temperature dependent electrical anisotropy below a characteristic temperature of ca. 150 K Thermopower measurements indicate that the system is metallic in the parallel direction but also, we find that the thermopower is anisotropic. Thermopower in the perpendicular direction changes sign at around 200 K. This we take to indicate that the interchain conduction process involves phonons, and hence a different transport mechanism must control it as compared to the metallic intrachain transport.

Citation

Monkman, A., Adams, P., Laughlin, P., & Holland, E. (1995). POLYANILINE, AIR-STABLE ORGANIC METAL - FACT, NO LONGER FICTION. Synthetic Metals, 69(1-3), 183-186

Journal Article Type Article
Publication Date 1995-03
Journal Synthetic Metals
Print ISSN 0379-6779
Electronic ISSN 1879-3290
Publisher Elsevier
Volume 69
Issue 1-3
Pages 183-186
Keywords POLYACETYLENE; CONDUCTIVITY; FILMS; POLYMERS; STATE
Public URL https://durham-repository.worktribe.com/output/1559145



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