Photo-induced energy transfer in ruthenium-centred polymers prepared by a RAFT approach

AJ Tilley; MJ Kim; M Chen; KP Ghiggino

Journal article

Photo-induced energy transfer in ruthenium-centred polymers prepared by a RAFT approach

AJ Tilley, MJ Kim, M Chen, KP Ghiggino

Polymer | Published : 2013

DOI: 10.1016/j.polymer.2013.03.064

Abstract

Triplet and singlet excitation energy transfer processes are investigated in two novel di- and hexa-functionalised ruthenium centred polymers prepared by RAFT methods. The polymers consist of a ruthenium trisbipyridyl ligand complex (Ru(bpy)3) core and pendant polymer 'arms' of 9,10-diphenylanthracene (DPA). Steady state and transient emission and absorption experiments are used to investigate intramolecular energy transfer processes following photoexcitation of Ru(bpy)3 and DPA. Triplet energy transfer from the Ru(bpy)3 core to pendant DPA chromophores in the polymer arms is found to be more efficient than the reverse singlet energy transfer process, attributed in part to the long triplet l..

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University of Melbourne Researchers

Ken Ghiggino Author

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Grants

Awarded by Australian Research Council

Funding Acknowledgements

KPG acknowledges financial support for this work from the Australian Research Council (DP 0986166 and LE 0989197). We would like to thank A/Prof. Trevor Smith and Dr. Xiao-Tao Hao for assistance with the fluorescence lifetime measurements, and Dr Evan Moore for the provision of the sample of [Ru(dmb)<INF>3</INF>](ClO<INF>4</INF>)<INF>2</INF>.