In a smart solution-processable luminescent poly(norbornene)/Oxazine-1 (Ox1) intercalated fluoromica nanohybrid, the supramolecular organization of the Ox1 dyes can be tuned at the nanoscale level and a deep red emission band switched on by inducing a phase segregation of aligned molecules within the fluoromica layered scaffold. By combining low-temperature photoluminescence and ultrafast pump-probe spectroscopy we prove that the nanoconstrained Ox1 molecules are organized in a J-type packing and we highlight the critical factor that controls such supramolecular dye arrangement.
Oxazine-1 J-aggregates in polymer nanohybrids
U Giovanella;G Leone;G Ricci;T Virgili;C Botta
2012
Abstract
In a smart solution-processable luminescent poly(norbornene)/Oxazine-1 (Ox1) intercalated fluoromica nanohybrid, the supramolecular organization of the Ox1 dyes can be tuned at the nanoscale level and a deep red emission band switched on by inducing a phase segregation of aligned molecules within the fluoromica layered scaffold. By combining low-temperature photoluminescence and ultrafast pump-probe spectroscopy we prove that the nanoconstrained Ox1 molecules are organized in a J-type packing and we highlight the critical factor that controls such supramolecular dye arrangement.File in questo prodotto:
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Descrizione: Oxazine-1 J-aggregates in polymer nanohybrids
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