Cs0.32WO3 Applied for Infrared Ultraviolet Shielding Material

Cs0.32WO3 applied for infrared ultraviolet shielding material picture

Cs0.32WO3 for preparing infrared ultraviolet shielding material may be highly crystalline and hexagonal single-phase Cs0.32WO3 nanoparticles that exhibit absorption in the near-infrared region. According to the experts, the Cs0.32WO3 nano particles can be successfully synthesized by a flame-assisted spray pyrolysis followed by annealing under a reducing gas atmosphere. Well, what are the advantages of using a flame-assisted spray pyrolysis to prepare Cs0.32WO3 nano powder?

Read more...

Cs0.32WO3 Applied for Ceramic Microsphere

Cs0.32WO3 applied for ceramic microsphere picture

Cs0.32WO3 for preparing ceramic microsphere is cesium doped tungsten oxide nano powder that has been regarded as highly promising NIR shielding material. Until now, cesium doped tungsten oxide nanoparticles have been synthesized via solid state, hydrothermal, water controlled-release solvothermal, and thermal plasma synthesis methods that need high energy, costs, or long time. Thus, it is necessary to synthesize cesium doped tungsten oxide nanoparticles using a rapid and energy effective method to make it feasible for large-scale and practical applications.

Read more...

Cs0.32WO3 Applied for Transparent Thermal Insulation Material

Cs0.32WO3 applied for transparent thermal insulation material picture

Cs0.32WO3 is an important functional material for producing transparent thermal insulation material such as thermal insulation film or thermal insulation coating. According to the experts, the absorbance (near-infrared shielding performance) of Cs0.32WO3 is closely related to its crystallinity, microstructure and other factors. The near-infrared shielding performance of Cs0.32WO3 is enhanced with the increase of free carrier concentration and crystallinity, and is greatly enhanced with the formation of nanorod-like morphology.

Read more...

Cs0.32WO3 Applied for Thermal Insulation Paper

Cs0.32WO3 applied for thermal insulation paper picture

Cs0.32WO3 for thermal insulation paper can be prepared by hydrothermal synthesis method using sodium tungstate and cesium carbonate as raw materials. Wherein, D-malic acid is added as a reducing agent. But why choose D-malic acid as the reducing agent?

Read more...

Cs0.32WO3 Applied for Thermal Insulation Coating

Cs0.32WO3 applied for thermal insulation coating picture

Cs0.32WO3 for thermal insulation coating can be synthesized by hydrothermal method using sodium tungstate and cesium carbonate as raw materials. Wherein, cesium carbonate was added to the tungstic acid solution obtained by ion exchange of sodium tungstate according to Cs/W ratios of 0.1, 0.2, 0.3, 0.4, 0.5, and 0.6, respectively.

Read more...

Cs0.32WO3 Applied for Heat Insulation Coating

Cs0.32WO3 applied for heat insulation coating picture

Cs0.32WO3 for preparing heat insulation coating is also known as cesium tungsten bronze with excellent near-infrared absorption performance, and relatively stable chemical and physical properties. It is these excellent properties make the heat insulation coating made of Cs0.32WO3 nano particles have the characteristics of high heat insulation performance and high visible light transmission. You know, if the free carrier content in the cesium tungsten bronze structure increases, the near-infrared absorption performance of the resulting powder will be stronger.

Read more...

Tungsten Bronze Applied for Transparent Heat Insulation Material

tungsten bronze applied for transparent heat insulation material picture

Tungsten bronze, such as cesium tungsten bronze, may be used to produce transparent heat insulation material. Some experts found that the transparent thermal insulation coating of cesium tungsten bronze nanoparticles can be formed on the glass surface to reduce the indoor temperature by 3-10 °C under the premise of ensuring sufficient lighting and visual permeability. Therefore, the air conditioning energy consumption can be significantly reduced and human comfort can be improved.

Read more...

Molybdenum Doped Tungsten Bronze

molybdenum doped tungsten bronze picture

Molybdenum doped tungsten bronze can be ammonium tungsten bronze nanocrystals doped with molybdenum. Compared with tungsten bronze, the near infrared shielding performance of molybdenum doped tungsten bronze has been improved. So, do you know why molybdenum doping can improve the near-infrared shielding performance of tungsten bronze?

Read more...

Tungsten Bronze Composite Material Applied for Energy-saving Window

tungsten bronze composite material applied for energy-saving window picture

The tungsten bronze composite material for producing an energy-saving window may be a composite material of tungsten bronze and PNIPAM hydrogel. It is reported that the tungsten bronze and PNIPAM hydrogel can be used to produce an energy-saving window by using the photothermal conversion characteristics of tungsten bronze and the heat-sensitive effect of PNIPAM hydrogel. Well, how does the energy-saving window play a role of transparent heat insulation?

Read more...

Cesium Tungsten Bronze Applied for Infrared Absorbing Material

cesium tungsten bronze applied for infrared absorbing material picture

As a new infrared absorbing material, or a spectral selective material, cesium tungsten bronze has received much attention. The spectral selective material may be an infrared absorbing material. And spectral selective materials are not limited to cesium tungsten bronze. It is reported that currently, the spectral selective materials applied for producing energy-saving glasses are mainly Low-E thin films, ITO, ATO, and LaB6.

Read more...

 

WeChat