Cationic Polyelectrolyte for Anionic Cyanines: An Efficient Way To Translate Molecular Properties into Material Properties.
Zhong'an LiAkbar A SyedPeng ZhaoJeffrey C YangRajesh SharmaTrenton R EnsleyJonathan D MatichakIryna DavydenkoSei-Hum JangDavid J HaganSeth R MarderEric W Van StrylandAlex K-Y- JenPublished in: Journal of the American Chemical Society (2019)
In this work, a new phosphonium-containing cationic polyelectrolyte (PE1) has been rationally designed and developed via a facile click-chemistry type postfunctionalization, which can form complexes with highly polarizable anionic cyanines to significantly reduce the strong and random cyanine-cyanine interactions (i.e., aggregation) in the solid-state. This material design strategy enables an efficient translation of the favorable molecular properties of cyanines into macroscopic material properties. One of such complexes exhibits a very large third-order susceptibility over 10-10 esu with low nonlinear optical loss suitable for all optical signal processing.