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  • 09

    Jun

    Characterization of Nanomaterials - Composition Analysis of Nanopowders

    Characterization and testing technology is the fundamental way to scientifically identify nanomaterials, understand their diverse structures, and evaluate their special properties. The main purpose of characterization of nanomaterials is to determine some physical and chemical properties of nanomaterials, such as morphology, size, particle size, chemical composition, crystal structure, band gap an...
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  • 09

    Jun

    Characterization of Nanomaterials-Structural Analysis of Nanopowders

    Characterization and testing technology is the fundamental way to scientifically identify nanomaterials, understand their diverse structures, and evaluate their special properties. The main purpose of characterization of nanomaterials is to determine some physical and chemical properties of nanomaterials, such as morphology, size, particle size, chemical composition, crystal structure, band gap an...
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  • 04

    Aug

    Nano ATO Antimony Tin Oxide powder can be used on antistatic materials

    Nano ATO has excellent electrical and optical properties, and is widely used in coatings, plastics, textiles, polymer films, electronic products and other fields by virtue of its good electrical conductivity and antistatic properties. Nano ATO is much better than other antistatic materials, such as graphite, surfactant, metal powder, etc. The interaction of uniformly dispersed ato conductive nano ...
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  • 04

    Aug

    Nano ATO Antimony Tin Oxide powder can be used in thermal insulation materials

    In building energy conservation, the light transmission and heat insulation of glass is a very critical issue. In buildings with transparent ceilings and large-area exterior windows, the thermal radiation of sunlight will lead to an increase in the energy consumption of air conditioners, resulting in a large energy waste. In order to improve this phenomenon, nano-scale antimony doped tin oxide ATO...
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  • 01

    Jul

    How to Prepare of Samples for Nanoparticle Transmission Electron Microscopy (TEM)

    Transmission Electron Microscope (TEM) Transmission electron microscopy uses an electron beam that penetrates a sample to image, which requires the sample being observed to be "transparent" to the incident electron beam. Transmission electron microscopy is widely used in materials science and biology. Since electrons are easily scattered or absorbed by objects, the penetration is low, and the dens...
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  • 28

    Jul

    How to prepare and test the thermal insulation and infrared blocking properties of cesium tungsten oxide nanoparticles modified PVC film

    In summer, the sun is strong, and the sunlight enters the room through the glass, causing the temperature in the car to rise sharply, which seriously affects the comfort of living and vehicle riding. Among them, the energy in the infrared band accounts for the largest proportion, and it is also the main source of energy for the temperature increase in the place where the sunlight is irradiated. By...
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  • 28

    Jul

    With Cesium Tungsten bronze Nanoparticles, the Age of Smart Insulation Has Come

    Glass thermal insulation coating is a kind of coating prepared by one or more nano powder materials. The nano materials used have special optical properties, that is, they have high blocking rate in the infrared region and ultraviolet region. , has a high transmittance in the visible region. Using the transparent and heat-insulating properties of the material, it is mixed with an environmentally f...
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  • 04

    Aug

    Four Common Nanomaterials Used in Transparent Thermal Insulation Coatings

    Nano thermal insulation coatings can be used to absorb ultraviolet rays from sunlight, and are often used in current decoration buildings. Water-based nano transparent thermal insulation coating not only has the effect of high efficiency and energy saving, but also has the comprehensive advantages of green environmental protection, health and safety. As an alternative product of solvent-based glas...
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  • 02

    Aug

    Comparison of thermal insulation test between cesium-doped tungsten oxide CSxWO3 glass and ordinary glass

    Infrared light has an obvious thermal effect, which can easily lead to an increase in ambient temperature. Ordinary architectural glass has no thermal insulation effect, and can only be achieved by means of filming. Therefore, architectural glass, car film, outdoor facilities and other surfaces need to use thermal insulation materials to achieve the effect of thermal insulation and energy saving. ...
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  • 02

    Aug

    Nano cesium tungsten oxide plays an important role in glass thermal insulation

    The promotion and application of energy-saving technologies has reached a consensus in the world, and many countries have successively issued policies. In building energy consumption, a large proportion is lost through glass doors and windows. Similarly, in the hot summer, the exposure of sunlight through the car glass is unbearable for drivers and passengers, which accelerates the aging of the ve...
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  • 08

    Aug

    A brief introduction to ICP-MS for chemical total elemental analysis

    ICP-MS Inductively Coupled Plasma Mass Spectrometer is an analytical instrument that combines ICP technology and mass spectrometry. It can simultaneously measure dozens of trace elements. The instrument covers a wide range of elements, including alkali metals, alkaline earth metals, transition Metals and other metalloids, rare earth elements, most halogens and some non-metallic elements. Principle...
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  • 11

    Aug

    Is there any relationship between electrical conductivity and thermal conductivity of materials?

    In the world of electronic materials there are two important material properties "electrical conductivity" and "thermal conductivity". Generally speaking, as long as the electrical conductivity of the material is good enough, the thermal conductivity is also good. For example, copper, silver, aluminum and other metal materials have good electrical and thermal conductivity. Therefore, most metal ma...
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