W18O49 is a promising multifunctional material for electrochromic energy storage applications, owing to its abundant oxygen vacancies and distinctive crystalline structure. However, the contradiction between the high transmittance modulation for electrochromism and the high material loading for energy storage severely restricts the development of W18O49 in multifunctional smart windows. This work found that different metal doping (Mo, Ti, Fe) exhibited significant differences in regulating the electrochromic performance and energy storage of W18O49. And the oxygen vacancies of W18O49 can be further controlled by adjusting the metal doping concentration, simultaneously achieving excellent electrochromic properties and energy storage. 5% Ti-doped W18O49 not only exhibits a high transmittance modulation of 82.3% (633 nm) and 81.0% (1050 nm) with fast coloration/bleaching times of 9.8/5.8 and 3.8/5.8 s, but also shows a good energy storage of 32.5 mF·cm−2 at 0.1 mA·cm−2. Theoretical calculations indicate Ti doped W18O49 shows a more delocalized characteristic in band decomposition charge densities and a lower diffusion energy barrier, which is conducive to enhancing the electrochemical performance. This work demonstrates metal doping plays a significant role in simultaneously regulating electrochromism and energy storage, providing a new perspective for the development of multifunctional electrochromic materials.
Publications
- Article type
- Year
- Co-author
Article type
Year
Open Access
Research Article
Issue
Nano Research 2025, 18(9): 94907807
Published: 08 September 2025
Downloads:286
Total 1
京公网安备11010802044758号