Microporous, tetraarylethylene-based polymer networks generated in a reductive polyolefination process
Microporous Polymer Networks (MPNs) that contain aggregate-induced emission (AIE) active tetraphenylethylene (TPE) or other tetraarylethylene units have been generated in a reductive polyolefination process starting from four different tris(α,α-dichlorobenzyl)arene derivatives with dicobalt octacarbonyl or chromium(ii)acetate as reductive olefination agents. Microporosity with moderately high BET surface areas up to 500 m2 g-1 could be combined with high solid state photoluminescence quantum yields up to 25.3% for polymer network P4. This unique combination should be promising for applications as optical solid state sensors, especially for MPNs with electron-deficient triazine core units.
Preis,Dong,Brunklaus,Scherf
p. 1582 - 1587
(2015/04/27)
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