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Characterization of the intrachain charge-generation mechanism of electronically conductive poly (3-methylthiophene)

Journal Article · · Journal of Chemical Physics; (USA)
DOI:https://doi.org/10.1063/1.460588· OSTI ID:5776344
;  [1]
  1. Solar Energy Research Institute, Golden, Colorado 80401 (US)
+ Show Author Affiliations

The charge carriers and band structure that evolve upon doping of electrochemically grown poly (3-methylthiophene) (PMeT) films are characterized as a function of film preparation conditions by optical absorption, infrared, and electron spin resonance measurements. Regardless of the solvent (acetonitrile or propylene carbonate) or dopant anion (ClO{sup {minus}}{sub 4}, PF{sup {minus}}{sub 6}, BF{sup {minus}}{sub 4}, or CF{sub 3}SO{sup {minus}}{sub 3} ) used in preparing these films, bipolarons are found to play a prominent role in the charge-generation mechanism of PMeT at doping levels above 2 mol %. At low doping concentrations ({lt}2 mol %), structural disorder effects in the polymer are evident. The amount of structural disorder depends on the nature of the solvent and dopant anion. The binding energy of bipolarons to dopant anions was evaluated and found to be independent of the identity of the dopant anion. Solvent-dependent shifts in the bipolaron gap states and the binding energy are observed. These results are interpreted in terms of current theories of charge-carrier production in conductive polymers.

DOE Contract Number:
AC02-83CH10093
OSTI ID:
5776344
Journal Information:
Journal of Chemical Physics; (USA), Journal Name: Journal of Chemical Physics; (USA) Vol. 94:6; ISSN JCPSA; ISSN 0021-9606
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360603* -- Materials-- Properties
ABSORPTION SPECTRA
CHARGE CARRIERS
DOPED MATERIALS
ELECTRIC CONDUCTORS
ELECTRON SPIN RESONANCE
FILMS
HETEROCYCLIC COMPOUNDS
INFRARED SPECTRA
MAGNETIC RESONANCE
MATERIALS
ORGANIC COMPOUNDS
ORGANIC POLYMERS
ORGANIC SULFUR COMPOUNDS
POLARONS
POLYMERS
QUASI PARTICLES
RESONANCE
SPECTRA
THIN FILMS
THIOPHENE