Journal of Inorganic Materials, Volume. 35, Issue 5, 511(2020)
Figures & Tables(24)
![Schematic diagram (a) and photographs (b-e) of flexible electrochromic device of Ag/W18O49 nanowire co-assemble[17]](/Images/icon/loading.gif){kind=icon}
2. Schematic diagram (a) and photographs (b-e) of flexible electrochromic device of Ag/W18O49 nanowire co-assemble[17]
3. Schematic illustrations of functioning mechanisms for the bi-functional device[18]
4. Performance index of the functional layers of inorganic all-solid-state electrochromic device
5. Schematic diagram of typical electrochromic device structure[10]
6. The key performance evaluation index of typical electrochromic device
7. Schematic illustration of the preparation for electrochromic electrodes with and without a graphene interface layer[31]
9. Schematic illustration for the formation of Co3O4 macro- bowl array films[33]
10. Synthesis of Nb2O5 thin films grown by single source precursor CVD[34]
12. Schematic diagram of the fabrication process of the hybrid electrochromic electrode based on self-forming crackle pattern technology[35]
14. Scheme of a new ESS window device system (a) and schematic for the device preparation process (b)[16]
15. Transmittance and optical modulation changes of the WO3 on the silver grid/PEDOT:PSS hybrid film in the bleached and colored state[36]
16. SEM cross-section image of ECD-fresh: Glass/ITO/ WO3/LiTaO3/NiO/ITO[52]
17. SEM cross-sectional images (a-b) of ECD-1 and ECD-2 with and without the embedment of Ta2O5 layers[53]
18. Electrochromic response of W18O49 nanowires under electrochemical insertion from one of the three different ions: Li+, Na+, and Al3+ in organic polycarbonate (PC) solvent using ClO4- as counter ion under ambient conditions[54]
19. Electrochromic performance of WO3 films under various operations[58]
20. Electrochromic properties of NiO nanoparticles film with seed layer on ITO glass[61]
21. Lix NiOy all-solid-state ECDs based on gradient Li+ distribution and its performance
23. All-solid-state electrochromic devices developed by our research group
Table 1. Electrochromic materials and their deposition methods
View tableView in ArticleTable 1. Electrochromic materials and their deposition methods
Category EC Layer Preparation method Cathod coloration WO3 Magnetron sputtering[ 23 ], vacuum evaporation, Sol-GelMoO3 Magnetron sputtering[ 24 ], vacuum evaporation[25 ]Nb2O5 Anodic oxidation[ 26 ]TiO2 Hydrothermal[ 27 ]Anode coloring NiO x Magnetron sputtering IrO2 Anodic oxidation[ 28 ]CoO2 Hydrothermal[ 29 ]Prussian blue Electrochemical deposition[ 30 ]
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Hanxiang JIA, Xun CAO, Pingshi JIN.
Paper Information
Category: REVIEW
Received: Jun. 24, 2019
Accepted: --
Published Online: Mar. 1, 2021
The Author Email: CAO Xun (cxun@mail.sic.ac.cn)
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