Electropolymerization of D-A-D type monomers consisting of triphenylamine and substituted quinoxaline moieties for electrochromic devices

Three novel donor-accepter-donor (D-A-D) type monomers (TPAQ-Ph, TPAQ-PhOMe and TPAQ-Phen) consisting of triphenylamine (TPA) and substituted quinoxaline moieties were synthesized, and further electropolymerized for electrochromic devices. Polymers PTPAQ-Ph and PTPAQ-PhOMe with two twisted substituents on the pi-conjugated backbone exhibited efficient electrochromic properties, involving high optical contrast up to 70%, short response time less than 3 s, high color coloration efficiency over 200 cm(2) C-1, and good cycle stability. However, polymer PTPAQ-Phen employing a fused electron acceptor unit with high coplanarity showed poor electrochromic performance and low stability. Moreover, electrochromic devices based on these three polymers were fabricated and characterized. The result demonstrates that the molecular configuration of the designed monomer is crucial for electrochromic performance.

Automated summary

Three novel donor-accepter-donor (D-A-D) type monomers were synthesized and electropolymerized for electrochromic devices. Two polymers with twisted substituents on the pi-conjugated backbone showed efficient electrochromic properties, while one with a fused electron acceptor unit exhibited poor performance and stability. The molecular configuration of the designed monomer was crucial for electrochromic performance.