Abstract

• A CzBN-containing homopolymer is electrosynthesized. • P(CzBN- co -BTP4) displays three various colors (brown, grayish-blue, and olive green) at different potentials. • P(CzBN- co -BTP) attains high Δ T (59.6 % at 960 nm) and η (174.3 cm 2 /C at 960 nm). • P(CzBN- co -BTP2)/PEDOT ECD presents a high Δ T (43.7 % at 627 nm). A 3,5-di(9H-carbazol-9-yl)benzonitrile (CzBN)-containing homopolymer (P(CzBN)) and five CzBN-containing 2,2′-bithiophene (BTP) copolymers, namely (P(CzBN- co -BTP)), P(CzBN- co -BTP2), P(CzBN- co -BTP3), P(CzBN- co -BTP4), and P(CzBN2- co -BTP), with various feeding molar ratios of CzBN and BTP were electrodeposited on transparent conductive indium tin oxide (ITO) electrodes, and their electrochromic performances were characterized. The P(CzBN- co -BTP4) film exhibited distinct electrochromic behaviors and displayed three different colors (brown, grayish-blue, and olive green) at different potentials. Electrochromic kinetic analyses of the anodic polymers revealed that P(CzBN- co -BTP) had a high transmittance change (Δ T %) (59.6% at 960 nm) and high coloration efficiency (η) (174.3 cm 2 /C at 960 nm) in three-electrode cells. Six dual-layer organic electrochromic devices (ECDs) were constructed using P(CzBN), P(CzBN- co -BTP), P(CzBN- co -BTP2), P(CzBN- co -BTP3), P(CzBN- co -BTP4), or P(CzBN2- co -BTP) as the anodically coloring layers and PEDOT as the cathodically coloring layer. The P(CzBN- co -BTP2)/PEDOT ECD had a high Δ T (43.7% at 627 nm) and a rapid response time (≤2.0 s), while the P(CzBN)/PEDOT ECD had a high η (616.7 cm 2 /C at 625 nm) and adequate optical memories. These electrochromic results suggest that cyano-containing polycarbazoles are promising high-contrast and rapid-response electrodes for ECD applications.

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