Controlled Diels−Alder Reactions Used To Incorporate Highly Efficient Polyenic Chromophores into Maleimide-Containing Side-Chain Polymers for Electro-Optics

Abstract

Using an in situ Diels−Alder (DA) “click chemistry” strategy for reactions between anthracene and maleimide functional groups, two prototypes of novel nonlinear optical (NLO) side-chain polymers (PMI-A7 and PMI-B7) containing highly hyperpolarizable but chemically sensitive phenyltetraene-based chromophores were synthesized and their nonlinear optical and thermal properties were characterized. Through rational material design, these NLO side-chain polymers exhibited good processibility, large electro-optic (E-O) coefficients (r33, of up to 263 and 287 pm/V at 1.31 μm wavelength respectively), and excellent temporal stability. These combined properties make them promising materials for E-O device applications. Compared to PMI-B7, PMI-A7 exhibited significantly enhanced temporal stability (87% of the initial r33 values was retained after 550 h at 85 °C) and solvent resistance, which was attributed to slight cross-linking from the side reaction between maleimide and phenyltetraenic chromophore moieties. This...