Intrachain electron and energy transfer in conjugated organometallic oligomers and polymers

Intrachain electron and energy transfer in ...

Title	Intrachain electron and energy transfer in conjugated organometallic oligomers and polymers
Author(s)	S. Aly, C. Ho, D. Fortin, W. Wong, A. Abd-El-Aziz, P. Harvey
Journal	Chemistry (Weinheim an der Bergstrasse, Germany)
Date	2008
Volume	14
Issue	27
Start page	8341
End page	8352
Abstract	The synthesis of polymers of the type (-Cz-C[triple chemical bond]C-PtL(2)-C[triple chemical bond]C-Cz-X-)(n) along with the corresponding model compounds (Ph-PtL'(2)-C[triple chemical bond]C-Cz)(2)-X-, where Cz=3,3'-carbazole, X=nothing, Cz, or F (2,2'-fluorene), L=PBu(3), and L'=PEt(3) are reported. The electronic spectra (absorption, excitation, emission, and ns-transient spectra) and the photophysics of these species in 2-methyltetrahyrofuran (2MeTHF) at 298 and 77 K are presented. Evidence for singlet electron and triplet energy transfer from the Cz chromophore to the F moiety are provided and discussed in detail. The rate for electron transfer is very fast (>4 x 10(11) s(-1)), whereas that for triplet-triplet energy transfer is much slower (approximately 10(3) s(-1)). This work represents a very rare example of studies that address electronic communication in the backbone of a conjugated organometallic polymer.

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