Synthesis, photophysical, and device properties of novel dendrimers based on a fluorene hexabenzocoronene (FHBC) core

WWH Wong; DJ Jones; C Yan; SE Watkins; S King; SA Haque; X Wen; KP Ghiggino; AB Holmes

Journal article

Synthesis, photophysical, and device properties of novel dendrimers based on a fluorene hexabenzocoronene (FHBC) core

WWH Wong, DJ Jones, C Yan, SE Watkins, S King, SA Haque, X Wen, KP Ghiggino, AB Holmes

Organic Letters | AMER CHEMICAL SOC | Published : 2009

DOI: 10.1021/ol8029164

Abstract

The synthesis of easily functionalized and highly soluble fluorene-containing hexabenzocoronenes (FHBC) has been achieved in high yield at a gram scale. Conjugated triarylamine oligomers were coupled to the FHBC cores via Buchwald-Hartwig coupling, and the photophysical properties of resulting dendritic materials were examined by ultrafast laser spectroscopic techniques. Efficient quenching of the triarylamine oligomer fluorescence was observed paving the way for the inclusion of these materials in bulk heterojunction solar cells. In preliminary studies, solar cell devices with external quantum efficiencies above 5% have been fabricated. © 2009 American Chemical Society.

University of Melbourne Researchers

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Grants

Awarded by Australian Research Council (ARC)

Awarded by Australian Government Department of Innovation, Industry, Science and Research (ICOSC)

Awarded by Australian Research Council

Funding Acknowledgements

We thank the Australian Research Council (ARC, DP0451189, DP0877325), the Victorian Government Department of Primary Industries (ETIS), the Australian Government Department of Innovation, Industry, Science and Research (ICOSC, CG10059), the Commonwealth Scientific and Industrial Research Organisation (CSIRO), the Victorian Endowment for Science; Knowledge and Innovation (VESKI), University of Melbourne and DAAD/Go8 exchange scheme for generous financial support. S.A.H. acknowledges EPSRC, BP-Solar, ESF-SONS2 program, and the Royal Society for financial support.