Cs doped tungsten oxide nanoparticles may be mainly applied to produce a new type of “transparent” thermal insulation paper - heat insulation film. That is because Cs doped tungsten oxide nanoparticles (CsxWO3) show promising optical characteristics such as high transmittance for visible light, as well as high shielding performance for near-infrared lights. Meanwhile, the CsxWO3 nano powder shows strong absorption of near-infrared light and instantaneous conversion of photo energy to heat.

You know, Cs doped tungsten oxide nanoparticles or cesium tungsten bronze (CsxWO3) nanoparticles with excellent near-infrared shielding performance are important for preparing thermal insulation film. Well, do you know the effects of annealing in different atmosphere on the near-infrared shielding properties of Cs doped tungsten oxide nanoparticles under low temperature hydrothermal reaction?

Cs doped tungsten oxide nanoparticles such as Cs0.33WO3 nanoparticles may be applied to produce ceramic microsphere with excellent near infrared shielding performance and high transparency. Well, it is reported that the tungsten bronze compound - NaxCs0.33-xWO3 has enhanced near infrared shielding properties than Cs0.33WO3.

Cs doped tungsten oxide nanoparticles with the formula of CsxWO3 may be applied to prepare thermal insulation masterbatch. And the prepared thermal insulation masterbatch may be used to produce thermal insulation film with excellent near-infrared shielding properties. Wherein, it is reported that some experts have prepared Cs doped tungsten oxide nanoparticles by solvothermal reaction method to further improve its near-infrared shielding performance for solar filter applications. And the experts also investigated the effects of nitrogen annealing on the microstructure and near-infrared shielding properties of CsxWO3.

Cs doped tungsten oxide nanoparticles, which are also called cesium tungsten oxide (CsxWO3) nanoparticles, may be used for preparing nano-ceramic color master. And the prepared color master is mainly applied to produce heat insulation film. According to the experts, CsxWO3 nanoparticles can be synthesized by solvothermal reactions using ethanol and 57.1 vol% ethanol aqueous solution at 200 °C for 12 h.

Cs doped tungsten oxide nanoparticles, or Cs-doped WO3 nanoparticles, or cesium tungsten bronze nanoparticles, or CsxWO3 nanoparticles, are often used to prepare nano-ceramic dispersion solution. And the prepared dispersion solution is usually mixed with an acrylic resin to produce heat insulating coating in which the dispersion takes up 20 wt%.

Cs doped tungsten oxide nanoparticles may be used to prepare thermal insulation dispersion with excellent near infrared absorbing ability. Wherein, Cs doped tungsten oxide nanoparticles can be synthesized by using sodium tungstate and cesium carbonate as raw materials, and citric acid as a reducing agent under hydrothermal conditions. The obtained nanoparticles are Cs0.32WO3 nano powders with a hexagonal phase structure, which exhibit strong near-infrared absorption performance in the near-infrared region, and the highest absorbance at the wavelength of 1100nm can reach 1.96.

Cs doped tungsten oxide nanoparticles are well-known as cesium tungsten bronze nanoparticles, which are often used in the preparation of thermal insulation dispersion liquid. And the prepared dispersion liquid is mainly used in the production of transparent heat-insulating glass coating, which is widely applied for heat insulation of automobiles and buildings. Well, do you know how to prepared Cs doped tungsten oxide nanoparticles?

Cs doped tungsten oxide nanoparticles, that is, cesium tungsten bronze nanoparticles or CsxWO3 nanoparticles, are well-known as an infrared ultraviolet shielding material or a functional material with excellent near-infrared shielding performance. In recent years, with the promotion of cesium-doped tungsten oxide, its preparation has become more and more popular among scholars.

Cs doped tungsten oxide nanoparticles are often applied to produce transparent thermal insulation material such heat insulation film and heat insulation coating as the absorbance of such a functional material is high in the near-infrared region, and the absorbance increases with the increase of the wavelength in the visible and near-infrared regions. But why does the absorbance of cesium tungsten bronze increase with the increase of wavelength in the visible and near infrared regions?