Donal Bradley

Photoexcitation in poly(arylenevinylenes)

Synthetic Metals Elsevier 17:1-3 (1987) 645-650

Authors:

DDC Bradley, RH Friend, WJ Feast

Structural studies of oriented precursor route conjugated polymers

Synthetic Metals Elsevier 17:1-3 (1987) 473-478

Authors:

DDC Bradley, RH Friend, T Hartmann, EA Marseglia, MM Sokolowski, PD Townsend

MEASUREMENTS OF INTER-CHAIN AND INTRA-CHAIN ELECTRON MOTION IN HIGHLY ORIENTED FILMS OF CONJUGATED POLYMERS

ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 193 (1987) 72-IAEC

Authors:

RH FRIEND, DDC BRADLEY, RD TOWNSEND

Infra-red characterization of oriented poly(phenylene vinylene)

Polymer Elsevier 27:11 (1986) 1709-1713

Authors:

DDC Bradley, RH Friend, H Lindenberger, S Roth

DURHAM ROUTE TO POLYACETYLENE.

Synthetic Metals 19:1-3 (1986) 898

Authors:

RH Friend, PD Townsend, DDC Bradley, WJ Feast, D Parker, NC Billingham, PD Calvert, PJS Foot, DC Bott, JN Winter

Abstract:

The Durham route to polyacetylene is through a non-conjugated and soluble precursor polymer which by a simple thermal elimination reaction gives polyacetylene and a volatile aromatic leaving group. The precursor route that we have studied most is illustrated, but several other precursor polymers, with different leaving groups, have also been synthesised, and these allow further selection of the conditions for the elimination reaction. Polyacetylene prepared by the Durham route is fully dense, and bulk chemical doping of polyacetylene films is therefore slower than for Shirakawa polyacetylene. The films can be obtained in a range of forms. Unstructured films show little crystallinity and short sequences of straight chain, whereas films that are stretched during the transformation reaction can be highly-oriented, exhibiting a high degree of crystallinity, and showing evidence, from Raman ESR and conductivity experiments for longer straight-chain lengths.