Synthesis of novel poly{methyl-[3-(9-indolyl)propyl]siloxane}-based nonlinear optical polymers via postfunctionalization

Abstract

A novel series of nonlinear optical (NLO) polysiloxanes with a high density of chromophore moieties based on poly{methyl-[3-(9-indolyl)propyl]siloxane} (PMIPS) were synthesized by a post functional strategy. First, PMIPS ( P1) was prepared through hydrosilylation reaction, then P1 is partially formylated by the reaction between P1 and the reagents of dimethylformamide (DMF) and phosphorus oxychloride under the standard Vilsmeier reaction conditions, and these formyl groups with high reactivity are condensed with four predesigned cyanoacetylated chromophores to afford the series of chromophore functionalized polysiloxanes ( P3– 6). The most special point is the molar concentrations of chromophore moieties are the same in polymers P3– 6, which makes it convenient to study the behavior of different chromophores in the polymeric system. The poled films of P3– 6 reveal the resonant d 33 values in the range of 7.9–55.2 pm/V by second harmonic generation (SHG) measurements.