Self-assembled organic homostructures with tunable optical waveguides fabricated via cocrystal engineering

Organic homostructures with tunable physiochemical properties were fabricated by simply changing the isomer molecules via the cocrystal engineering approach. The morphology of the cocrystals can be changed into rod-like or branched, with superior waveguide and multi-directional waveguide performance, respectively, which contributes to the realization of optical waveguide modules with integrated functions.

Automated summary

Organic homostructures with tunable physiochemical properties were fabricated by changing isomer molecules via cocrystal engineering approach. The morphology of the cocrystals can be altered to achieve rod-like or branched structures, which exhibit superior waveguide and multi-directional waveguide performance, contributing to the development of optical waveguide modules with integrated functions.