par Liu, Qirong 
;Chen, Qianqian ;Zhang, Qianqian;Dong, Guobo;Zhong, Xiaolan;Xiao, Yu;Delplancke, Marie-Paule ;Reniers, François ;Diao, Xungang
Référence Electrochimica acta, 269, page (617-623)
Publication Publié, 2018-04
;Chen, Qianqian ;Zhang, Qianqian;Dong, Guobo;Zhong, Xiaolan;Xiao, Yu;Delplancke, Marie-Paule ;Reniers, François ;Diao, XungangRéférence Electrochimica acta, 269, page (617-623)
Publication Publié, 2018-04
Article révisé par les pairs
| Résumé : | Applied potential plays a significant role in the properties of electrochromic devices (ECDs), for example, cyclic property, optical modulation, and response rate. In this study, inorganic all-solid-state ECDs with the multilayer structure of Glass/ITO/NiOx/Ta2O5/LiNbO3/Ta2O5/WO3/ITO were prepared by magnetron sputtering. The potential dependence of charges dynamic behaviors in the ECDs were analyzed on the basis of cyclic voltammograms (CVs), chronoamperograms (CAs), multi-potential steps, and in-situ optical transmittance at 550 nm. Results demonstrated that the trapping of Li+ ions in NiOx layer and in WO3 layer were responsible for the degradation of electrochromic properties of the ECDs operated at different potential ranges. Besides, the dynamic behavior of Li+ ions in WO3 layer, acting as the primary electrochromic layer in the ECDs, had a crucial influence on the response characteristics of the ECDs. Excellent optical memory effects at randomly electrochromic extent were observed and the corresponding open-circuit potential was relevant to the chemical potential of the ECDs. |
