AI Article Synopsis
- Oligo(fluorenyleneethynylenegermylene)s and polyplatinynes have been created and their light-emitting properties studied.
- The addition of heavy germylene connections significantly enhances how quickly these metallopolymers emit after being excited by light (phosphorescence decay rate).
- This research highlights the importance of molecular design in improving the performance of photonic materials.
Article Abstract
Oligo(fluorenyleneethynylenegermylene)s and their polyplatinynes are synthesized and photophysically characterized; inclusion of heavy germylene bridges greatly boosts the phosphorescence decay rate in metallopolymers.
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| http://dx.doi.org/10.1039/b409580d | DOI Listing |
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Similar Publications
Oligo(fluorenyleneethynylenegermylene)s and their metallopolymers.
Chem Commun (Camb)
November 2004
Department of Chemistry and Centre for Advanced Luminescence Materials, Hong Kong Baptist University, Waterloo Road, Hong Kong, PR China.
Article Synopsis
- Oligo(fluorenyleneethynylenegermylene)s and polyplatinynes have been created and their light-emitting properties studied.
- The addition of heavy germylene connections significantly enhances how quickly these metallopolymers emit after being excited by light (phosphorescence decay rate).
- This research highlights the importance of molecular design in improving the performance of photonic materials.
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