Investigation of Electrochromic WO₃ Nanorods Prepared by DС Reactive Magnetron Sputtering with GLAD Technique

Abstract: Tungsten oxide (WO3) nanorods were prepared by a DC reactive magnetron sputtering with a glancing-angle deposition (GLAD) technique, which promoted high surface area, for electrochromic applications. During the deposition, a high-quality tungsten target was sputtered under oxygen ambience on to Si (100) and glass/ITO substrates. The variation of the deposition time, which affected the length, size and patterns of the nanorods, was investigated based on their electrochromic properties. For physical studies, the… Show more

“…Moreover, the possibility to work at room temperature makes the GLAD technique more compatible with flexible substrates such as polyethylene terephthalate (PET). Recently, EC properties of nanostructured WO 3 , − MoO 3 , and W x Si y O z , films prepared by the GLAD method have been reported, and the relative improvements in EC performance have been observed. Nevertheless, even though the open and polyporous characteristics of these films are very hopeful for their execution as fast switchable EC layer, as far as we know, high-performance flexible ECDs from GLAD films have not been previously reported.…”

Dual-Functional WO₃ Nanocolumns with Broadband Antireflective and High-Performance Flexible Electrochromic Properties

“…Moreover, the possibility to work at room temperature makes the GLAD technique more compatible with flexible substrates such as polyethylene terephthalate (PET). Recently, EC properties of nanostructured WO 3 , − MoO 3 , and W x Si y O z , films prepared by the GLAD method have been reported, and the relative improvements in EC performance have been observed. Nevertheless, even though the open and polyporous characteristics of these films are very hopeful for their execution as fast switchable EC layer, as far as we know, high-performance flexible ECDs from GLAD films have not been previously reported.…”

Dual-Functional WO₃ Nanocolumns with Broadband Antireflective and High-Performance Flexible Electrochromic Properties