Materials (Jul 2024)

Designed Growth of Covalently Bonded WO<sub>3</sub>/PEDOT Hybrid Nanorods Array with Enhanced Electrochromic Performance

  • Qing Zhang,
  • Yinhuan Cao,
  • Chuansheng Chen,
  • Xueru Zhang

DOI
https://doi.org/10.3390/ma17133319
Journal volume & issue
Vol. 17, no. 13
p. 3319

Abstract

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A covalently bonded WO3/PEDOT hybrid nanorods array has been prepared through solvothermal, oil bath, and electrochemical deposition methods using KH57 as a coupling agent. The obtained WO3/PEDOT shows substantially increased electrochromic performance with an increased response speed (3.4 s for coloring and 1.2 s for bleaching), excellent optical modulation (86.7% at 633 nm), high coloration efficiency (122.0 cm2/C at 633 nm), and distinguished cyclic stability. It was found that the covalent bond interaction between WO3 and PEDOT plays an essential role in property enhancement. The covalently bonded inorganic/organic hybrid nanorods array may promise great potential in developing smart-display and energy-efficient materials and devices featuring low energy consumption, cost effectiveness, and environmental protection.

Keywords