Supramolecular Approach to New Inkjet Printing Inks

Electronically complementary, low molecular weight polymers that self-assemble through tunable pi-pi stacking interactions to form, extended supramolecular polymer networks have been developed for inkjet printing applications and successfully deposited using three,different printing techniques. Sequential overprinting of the complementary,components results in supramolecular network formation through complexation of pi-electron rich pyrenyl or perylenyl chain-ends in one component with pi-electron deficient naphthalene diimide residues in a chain-folding polyimide. The complementary pi-pi stacked polymer blends generate strongly colored materials as a result of charge-transfer absorption bands in the visible spectrum, potentially negating the need for pigments or dyes in the ink formulation. Indeed, the final color of the deposited material can be tailored by varying the end-groups of the pi-electron rich polymer component. Piezoelectric printing techniques were employed in a proof of concept study to allow characterization of the materials deposited, and a thermal inkjet printer adapted with imaging software enabled in situ analysis of the ink drops as they formed and of their physical properties. Finally, continuous inkjet printing allowed greater volumes of material to be deposited, oil a variety of different substrate surfaces, and demonstrated the utility and versatility of this' novel type of ink for industrial applications.