Formation and Properties of a Hybrid Organosilica with a p-Phenylene Vinylene Polymer Partially Grafted to the Walls

The present manuscript reports a mesoporous organosilica (mpSiO2) containing a p‐phenylene vinylene (PPV) co‐polymer partially grafted to the walls of the hybrid material (PPV${ \subset }$mpSiO2). This material was obtained by using a bis‐silylated 2,5‐bis(chloromethylphenylene) as the silicon precu...

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Veröffentlicht in:Chemphyschem 2013-02, Vol.14 (3), p.618-626
Hauptverfasser: Buaki-Sogo, Mireia, de Miguel, Maykel, Atienzar, Pedro, Álvaro, Mercedes, García, Hermenegildo
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Sprache:eng
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Zusammenfassung:The present manuscript reports a mesoporous organosilica (mpSiO2) containing a p‐phenylene vinylene (PPV) co‐polymer partially grafted to the walls of the hybrid material (PPV${ \subset }$mpSiO2). This material was obtained by using a bis‐silylated 2,5‐bis(chloromethylphenylene) as the silicon precursor in combination with tetraethyl orthosilicate (TEOS) and cetyltrimethylammonium bromide (CTABr) as the surfactant. The final polymer was formed by adding appropriate amounts of 2,2′‐{[2,5‐bis(chloromethyl)‐1,4‐phenylene]bis(oxy)}diethanol as the co‐monomer and KtBuO as the base. The resulting PPV${ \subset }$mpSiO2 was characterized by XRD, SEM, TEM, FTIR spectroscopy, and magic angle spinning 29Si NMR spectroscopy; all spectroscopic data were in agreement with the presence of a conducting polymer. The resulting PPV${ \subset }$mpSiO2 material exhibits electrical conductivity, particularly after I2 doping, an electrochemical response, and electroluminescence. Laser flash photolysis studies of PPV${ \subset }$mpSiO2 indicate that this material can form PPV.+ polarons that could be responsible for the electrochemical and electroluminescent response. Hard graft: A mesoporous organosilica (mpSiO2) containing a p‐phenylene vinylene (PPV) co‐polymer partially grafted to the walls of the hybrid material (PPV${{ \subset }}$mpSiO2) is reported. Laser flash photolysis studies of PPV${{ \subset }}$mpSiO2 indicate that this material can form PPV.+ polarons that could be responsible for the electrochemical and electroluminescent response (see picture).
ISSN:1439-4235
1439-7641
DOI:10.1002/cphc.201200763