Tungsten Oxide Film Applied for Inorganic All Solid-state Electrochromic Device

tungsten oxide film applied for inorganic all solid-state electrochromic device picture

Tungsten oxide film, as an important functional material, is often used to produce an inorganic all solid-state electrochromic device. According to the experts, the excellent reversibility of such a device is associated to the presence of an optical free-carriers tail.

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WO3 Film Applied for All-solid-state Electrochromic Device

WO3 film applied for all-solid-state electrochromic device picture

WO3 film is well-known as it is the most important electrochromic layer material for assembling an all-solid-state electrochromic device. According to the experts, an all-solid-state electrochromic device based on NiO/WO3 complementary structure and solid polyelectrolyte can be manufactured for modulating the optical transmittance.

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WO3 Film Applied for All Solid-state Electrochromic Device

WO3 film applied for all solid-state electrochromic device picture

WO3 film is often used as an electrochromic layer for the assembly of an all solid-state electrochromic device with the advantages of good durability, high transmittance modulation, high coloration efficiency and good response times. And such a device is more and more widely applied to the curtain wall for adjusting the solar heat radiation dynamically and saving energy.

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WO3 Film Applied for Inorganic All Solid-state Electrochromic Device

WO3 film applied for inorganic all solid-state electrochromic device picture

WO3 film is the most popular material for assembly of an inorganic all solid-state electrochromic device with the characteristics of low power consumption (<2 V), high coloration efficiency and memory effects. So, such an electrochromic device has many potential applications in smart windows, mirrors, displays, and optical switching devices. Wherein, WO3 smart windows is regarded as an energy-saving window with a wide application in buildings and high-class automobiles.

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Cesium Tungsten Bronze Nano Dispersion Applied for Heat Insulation Coating

cesium tungsten bronze nano dispersion applied for heat insulation coating picture

Cesium tungsten bronze nano dispersion has high transparency and good near-infrared shielding function, so it is often used in the preparation of heat insulation coating. And it has found that when the near-infrared shielding ratio of the cesium tungsten bronze organic phase dispersion at 1000 nm is 90%, the visible light transmission at 520 nm can reach 73%. The experts used nano cesium tungsten bronze in the aqueous phase dispersion synthesized by hydrothermal method as the raw material, coated and modified the particle surface, and dispersed in dimethyl sulfoxide to obtain cesium tungsten bronze nano dispersion with these properties.

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Cesium Tungsten Bronze Particle Applied for Coated Glass

cesium tungsten bronze particle applied for coated glass picture

Cesium tungsten bronze particle is often used to prepare coated glass due to its excellent near-infrared shielding properties and visible light transmission properties. During the preparation of coated glass, cesium tungsten bronze nano particles exist in the nano cesium tungsten bronze aqueous dispersion at the beginning. Well, do you know how to prepare cesium tungsten bronze coated glass?

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Cesium Tungsten Bronze Dispersion Applied for Nanocomposite Coated Glass

cesium tungsten bronze dispersion applied for nanocomposite coated glass image

Cesium tungsten bronze dispersion, as a functional material, is studied to prepare nanocomposite coated glass with good thermal insulation properties. Well, how to prepare nanocomposite coated glass of cesium tungsten bronze dispersion?

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Cesium Tungsten Bronze Nanopowder Applied for Energy Saving Glass

cesium tungsten bronze nanopowder applied for energy saving glass picture

Cesium tungsten bronze nanopowder, as a new type of transparent energy-saving material, is important for preparing energy saving glass. The prepared heat insulation glass has the advantages of relatively low price, high visible light transmittance and high near-infrared shielding rate. It helps achieve the goals of improving human comfort and reducing building energy consumption.

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Near-infrared Shielding Material: Cesium Tungsten Bronze, CsxWO3

near-infrared shielding material: cesium tungsten bronze, CsxWO3 picture

Cesium tungsten bronze with the formula of CsxWO3 is well-known as a near-infrared shielding material. You know, there are many near-infrared shielding materials, but it is generally believed that cesium tungsten bronze is the most popular functional nanomaterials for preparing building energy-saving materials such as thermal insulation coatings. According to the experts, the solar radiation energy reaching the earth's surface is mainly composed of ultraviolet light (<400nm), visible light (400nm-780nm), and infrared light (> 780nm). Among them, infrared light is an important part of sunlight and a major source of thermal energy.

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Cesium Tungsten Bronze, CsxWO3 Applied for Heat Insulation Film

cesium tungsten bronze, CsxWO3 applied for heat insulation film picture

Cesium tungsten bronze, with the formula of CsxWO3, holds interesting optical properties (near-infrared shielding effect) so that it is regarded as a promising material in a wide range of applications, such as, the preparation of heat insulation film. Also, it is reported that Cr-CsxWO3 and Mo-CsxWO3 prepared by a water-controlled release solvothermal method have good near-infrared shielding performance. And some experts have investigated the effects of temperature, time and molar ratio on the properties of cesium tungsten bronze by orthogonal experiments.

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