Non-Covalent Interactions between Polyvinyl Chloride and Conjugated Polymers Enable Excellent Mechanical Properties and High Stability in Organic Solar Cells

The incorporation of insulating polymers into conjugated polymers has been widely explored as a strategy to improve mechanical properties of flexible organic electronics. However, phase separation due to the immiscibility of these polymers has limited their effectiveness. In this study, we report the discovery of multiple non-covalent interactions that enhances the miscibility between insulating and conjugated polymers, resulting in improved mechanical properties. Specifically, we have added polyvinyl chloride (PVC) into the conjugated polymer PM6 and observed a significant increase in solution viscosity, indicative of favorable miscibility between these two polymers. This phenomenon has been rarely observed in other insulating/conjugated polymer composites. Thin films of PM6/PVC exhibit a much-improved crack-onset strain of 19.35 %, compared to 10.12 % for pristine PM6 films. Analysis reveal that a cyclohexyl-like structure formed through dipole-dipole interactions and hydrogen bonding between PVC and PM6 acted as a cross-linking site in the thin films, leading to improved mechanical properties. Moreover, PM6/PVC blend films have demonstrated excellent thermal and bending stability when applied as an electron donor in organic solar cells. These findings provide new insights into non-covalent interactions that can be utilized to enhance the properties of conjugated polymers and may have potential applications in flexible organic electronics. For the first time, multiple non-covalent interactions between polyvinyl chloride and the conjugated polymer PM6 were discovered, resulting in excellent mechanical properties in PM6/polyvinyl chloride thin films and high thermal/bending stability in organic solar cells.image

Automated summary

This study reports the discovery of non-covalent interactions that enhance the miscibility between insulating and conjugated polymers, leading to improved mechanical properties. The incorporation of polyvinyl chloride (PVC) into the conjugated polymer PM6 resulted in a cyclohexyl-like structure and improved mechanical properties in thin films. The PM6/PVC blend films also exhibited excellent thermal and bending stability in organic solar cells.