Novel Prussian White@MnO<sub>2</sub>-Based Inorganic Electrochromic Energy Storage Devices with Integrated Flexibility, Multicolor, and Long Life

Ding, Yilin; Wang, Mengying; Mei, Zheyue; Diao, Xungang

doi:10.1021/acsami.2c12484

Cited by 35 publications

(20 citation statements)

References 67 publications

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“…With the cyclic process continuing, both the colored and bleached transmittance exhibited a rising trend, which means the partial electrode materials failed. Combined with the previous study, it is observed that it could be due to the poorer stability of MnO 2 compared with that of PB . For this inorganic flexible device, its mechanical flexibility combined with the electrochromic performance was also checked, as in Figure b–d.…”

Section: Resultssupporting

confidence: 52%

“…Combined with the previous study, it is observed that it could be due to the poorer stability of MnO 2 compared with that of PB. 63 For this inorganic flexible device, its mechanical flexibility combined with the electrochromic performance was also checked, as in Figure 5b−d. The electrochemical process would be affected when the bending radius was lower than 3 cm (Figure 5b), but even under a small bending radius (1.5 cm), the capacity retention can still get up to ∼80%, which verified its good flexible function (Figure 5c).…”

Section: Resultsmentioning

confidence: 99%

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Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

Ding

Wang

Mei

et al. 2023

ACS Appl. Mater. Interfaces

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Multicolor display has gradually become a soughtafter trend for electrochromic devices due to its broadened application scope. Meanwhile, the advantages of inorganic electrochromic devices such as stable electrochemical performance and good energy storage ability also have great attraction in practical production applications. However, there are still huge challenges for inorganic electrochromic materials to achieve multicolor transformation due to their single-color hue change. Herein, we design an inorganic and multicolor electrochromic energy storage device (MEESD) exhibiting flexibility and all-solidstate merits. Prussian blue (PB) and MnO 2 , as the asymmetrical electrodes of this MEESD, show good pseudocapacitance property, matching charge capacity, and obvious color change. As a typical electrochromic device, the MEESD shows a fast response of 0.5 s and good coloration efficiency of 144.2 cm 2 /C. As an energy storage device, the MEESD presents excellent rate capability and volumetric energy/power density (84.2 mWh cm −3 /23.3 W cm −3 ). Its energy level can be visually monitored by color contrast and optical modulation. In the charging/discharging process, its color can obviously change to various degrees of yellow, green, and blue along with 40% wide optical modulation at 710 nm. Meanwhile, the stability of the MEESD in a common and humidity environment was analyzed in detail from electrochemical, optical, and energy storage aspects. This work provides feasible thoughts to design multifunctional electrochromic devices integrated with inorganic, flexible, all-solid-state, multicolor, and energy storage properties.

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Section: Resultssupporting

confidence: 52%

Section: Resultsmentioning

confidence: 99%

Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

Ding

Wang

Mei

et al. 2023

ACS Appl. Mater. Interfaces

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“…The CE is also an essential parameter for electrochromic materials, it can be calculated using the following equation normalC normalE ( λ ) = normalΔ A Q normald = log nobreak0em.25em⁡ T normalO normalX T normalr normale normald Q normald …”

Section: Resultsmentioning

confidence: 99%

“…The CE is also an essential parameter for electrochromic materials, it can be calculated using the following equation …”

Section: Resultsmentioning

confidence: 99%

High Electrochromic Performance of Perylene Bisimide/ZnO Hybrid Films: An Efficient, Energy-Saving, and Green Route

Tao

Ouyang

Hua

et al. 2023

ACS Appl. Mater. Interfaces

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The composite or hybrid of organic and inorganic materials is one of the common ways to improve the properties of photoelectric functional materials. Perylene bisimide (PBI) derivatives, as large π-conjugated organic small molecules, are a class of photoelectric functional materials with excellent performance. However, there were few reports on PBIs in the electrochromic field due to the difficulty of film-forming caused by their generally poor solubility. Here, water-soluble PBI derivatives (PDI-COOH and PCl-COOH) were synthesized. The hybrid films (ZnO@PDI-COOH/ PCl-COOH) formed by the coordination bond and π−π stacking were prepared via a simple solution immersion method. Fourier transform infrared spectrometry and X-ray diffraction as well as scanning electron microscopy, and energy-dispersive spectrometry results further confirmed the formation of hybrid films. At the same time, electrochemical and spectroelectrochemical analyses revealed that the films have reversible redox activity and cathodic electrochromic properties, which can change from orange-red to purple. The ZnO@PDI-COOH hybrid film formed by coordination bonds exhibits fast switching times (1.7 s colored time and 2.6 s bleached time), good stability (retain 92.41% contrast after 2400 cycles), a low driving voltage (−0.6−0 V), and a high coloration efficiency (276.14 cm 2 /C). The corresponding electrochromic devices also have good electrochromic properties. On this basis, a large-area (100 mm × 100 mm) electrochromic display device with fine patterning was fabricated by using the hybrid film, and the device shows excellent reversible electrochromic performance. This idea of constructing organic−inorganic hybrid materials with coordination bonds provides an effective, energy-saving, and green method, which is expected to promote the large-scale and fine production of electrochromic materials.

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“…53 This problem can be effectively solved by the introduction of structural colors and the preparation of composite materials. 54,55 The great advantage of organic EC materials compared to inorganic materials is that the color can be tuned by means of molecular structural design. [56][57][58] Of course, structural colors and color composites are also common means of color modulation in organic materials.…”

Section: Ec Materials For Color Camouflagementioning

confidence: 99%

Recent advances in electrochromic materials and devices for camouflage applications

Zhang

Dong

et al. 2023

Mater. Chem. Front.

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Novel Prussian White@MnO₂-Based Inorganic Electrochromic Energy Storage Devices with Integrated Flexibility, Multicolor, and Long Life

Cited by 35 publications

References 67 publications

Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

High Electrochromic Performance of Perylene Bisimide/ZnO Hybrid Films: An Efficient, Energy-Saving, and Green Route

Recent advances in electrochromic materials and devices for camouflage applications

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Novel Prussian White@MnO2-Based Inorganic Electrochromic Energy Storage Devices with Integrated Flexibility, Multicolor, and Long Life

Cited by 35 publications

References 67 publications

Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

Flexible Inorganic All-Solid-State Electrochromic Devices toward Visual Energy Storage and Two-Dimensional Color Tunability

High Electrochromic Performance of Perylene Bisimide/ZnO Hybrid Films: An Efficient, Energy-Saving, and Green Route

Recent advances in electrochromic materials and devices for camouflage applications

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Novel Prussian White@MnO₂-Based Inorganic Electrochromic Energy Storage Devices with Integrated Flexibility, Multicolor, and Long Life