Synergistic Enhancement of PEDOT on Nanocrystal-in-Glass Ti-Doped WO<sub>3</sub> Thin Films for Applications in Electrochromic Smart Windows
Haopeng Jing, Kun Li, Shuling Xiang, Ran Jiang, Jumei Zhou, Hongliang Zhang
Abstract
WO 3 with nanocrystal-in-glass (nanocrystal-embedded amorphous matrix) characteristics is recognized as a highly promising electrochromic material. The demand for flexible and large-area electrochromic technologies is pushing the advancement of low-temperature and large-scale processes for WO 3 thin films. This study presents a functional ink designed for the low-temperature preparation of WO 3 thin films using blade-coating technology, enabling scalable and cost-effective production. The optimized WO 3:Ti-PEDOT hybrid electrochromic thin film demonstrates a high light modulation rate of 86.05% (@ 633 nm), a coloration efficiency of 54.1 cm 2 C –1, an outstanding cycle stability exceeding 1000 cycles, and an ionic diffusion coefficient of 3.69 × 10 –8 cm 2 s –1 . One reason for the remarkably improved electrochromic performance is the synergistic effect of the nanostructured WO 3 glass-nanocrystal composites induced by Ti doping and the enhanced electrochemical reaction kinetics facilitated by the use of poly(3,4-ethylenedioxythiophene) (PEDOT), a conductive polymer, as a binder. This work demonstrates a feasible and cost-effective method for producing WO 3 -based films for electrochromic smart windows, serving as an alternative to the existing vacuum-based WO 3 thin film production methods.