Ultra-strong ionic liquid-based polymer composite electrolyte for high performance electrochromic devices

“…2f). [33][34][35][36][37][38][39] Conducting polymers, such as PANI, typically show great potential as an ideal electrode material for electrochromic display due to their intrinsic exibility, rich color changes, and ease of scalable synthesis. 40,41 Considering the above advantages, PANI was utilized as the active material in an electrochromic device for a proof-of-concept demonstration for a potential multicolor application.…”

Ultrathin flexible electrochromic devices enabled by highly transparent ion-conducting films

“…2f). [33][34][35][36][37][38][39] Conducting polymers, such as PANI, typically show great potential as an ideal electrode material for electrochromic display due to their intrinsic exibility, rich color changes, and ease of scalable synthesis. 40,41 Considering the above advantages, PANI was utilized as the active material in an electrochromic device for a proof-of-concept demonstration for a potential multicolor application.…”

Ultrathin flexible electrochromic devices enabled by highly transparent ion-conducting films

“…Clearly, the ICF could offer a transparency over 90% and relatively high ionic conductivity of 0.46 mS cm À1 , which is comparable with some recent state-of the-art works. [29][30][31][32][33][34][35] The LTO has been demonstrated extensively as an anode for Li-ion batteries due to its excellent cycle life, structural stability and fast charging/discharging rates. 36 The crystal structure of spinel Li 4 Ti 5 O 12 belongs to the Fd% 3m space group (No.…”

“…Clearly, the ICF could offer a transparency over 90% and relatively high ionic conductivity of 0.46 mS cm −1 , which is comparable with some recent state-of the-art works. 29–35…”

A highly transparent ion conducting film enabling a visual electrochromic battery

“…As an essential component of electrochromic devices (ECDs), electrolytes are essential in preventing a short circuit between the electrodes and conducting ions for electrochromic reactions. [1][2][3] As the most traditional type, liquid electrolytes usually offer high ion-transport properties, meeting the basic usage requirements. [4] However, the common problems in this system were electrolyte leakage and complex encapsulation, especially DOI: 10.1002/marc.202300736 for flexible device applications.…”

A Strong and Highly Transparent Ionogel Electrolyte Enabled by In Situ Polymerization‐Induced Microphase Separation for High‐Performance Electrochromic Devices