Abstract
The photophysical properties, i.e., the fluorescence and phosphorescence of a series of blue light-emitting poly(ladder-type phenylene)s have been investigated employing continuous-wave (cw) and time-resolved photoluminescence (PL) spectroscopy in solid state and dilute solution. The chemically well-defined polymers vary from two to five bridged phenyl-rings per monomer unit bearing aryl- or alkyl-substitution at the bridge-head carbon atoms. It has been found that the fluorescence energy of the polymers and of the corresponding monomers deviates from a simple 1/N dependence, if the number N of bridged-phenylene rings is increased beyond a certain limit. Time-resolved fluorescence spectroscopy on thin films showed that apart from the blue fluorescence of the polymers an additional lower energy emission feature exists, which cannot be assigned to keto-defects and which seems to be an inherent solid state property of this class of materials. Delayed time-resolved photoluminescence spectroscopy allowed the detection of phosphorescence energies and lifetimes for all investigated polymers. Photoinduced absorption spectroscopy on thin films showed that the triplet-triplet absorption red-shifts with increasing monomer length but reaches a constant value for polymers with N≥4. Amplification of light via amplified spontaneous emission (ASE) from thin film slab waveguide structures could be demonstrated for all ladder-type polymers but the onset threshold value for ASE varies significantly with the polymer structure. © 2007 WILEY-VCH Verlag GmbH & Co. KGaA.
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CITATION STYLE
Laquai, F., Mishra, A. K., Ribas, M. R., Petrozza, A., Jacob, J., Akcelrud, L., … Wegner, G. (2007). Photophysical properties of a series of poly(ladder-type phenylene)s. Advanced Functional Materials, 17(16), 3231–3240. https://doi.org/10.1002/adfm.200700450
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