Dual-Cation Electrolytes Crosslinked with MXene for High-Performance Electrochromic Devices. [PDF]
Bae S, Kim Y, Kim JM, Kim JH.
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Flexible electrochromic devices based on tungsten oxide and Prussian blue nanoparticles for automobile applications. [PDF]
Jeong CY, Kubota T, Tajima K.
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1,4-Bis((9H-Carbazol-9-yl)Methyl)Benzene-Containing Electrochromic Polymers as Potential Electrodes for High-Contrast Electrochromic Devices. [PDF]
Kuo CW +5 more
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Thermally Engineered Nickel-Tungsten Oxide Films for Energy Efficient Electrochromic Devices. [PDF]
K S U, Lee SY.
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Flexible and high-performance electrochromic devices enabled by self-assembled 2D TiO2/MXene heterostructures. [PDF]
Li R +15 more
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Poly(Ionic Liquids) and Ionogels for Electrochromic Devices: Material Design and Additive Manufacturing Strategies. [PDF]
Statsenko TG +3 more
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Cross-Linked and Surface-Modified Cellulose Acetate as a Cover Layer for Paper-Based Electrochromic Devices. [PDF]
Kaschuk JJ +9 more
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Infrared Stealth Characteristics of WO<sub>3</sub>-Based Electrochromic Devices Mediated by Zn<sup>2+</sup>-Al<sup>3+</sup> Gel Electrolyte. [PDF]
Wang K, Yang X, Liu T, Zhang W.
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Electrodeposited Copolymers Based on 9,9'-(5-Bromo-1,3-phenylene)biscarbazole and Dithiophene Derivatives for High-Performance Electrochromic Devices. [PDF]
Kuo CW +5 more
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Research Progress in Ionic Liquid-Based Electrolytes for Electrochromic Devices. [PDF]
Zhang H +6 more
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