Is there a nanobismuth oxide?
Nanometer bismuth oxide
Also known as Bismuth Trioxide, a compound that has an organic molecular structure of Bi2O3, is one the most important bismuth compounds. While bismuth can be extracted from natural bismuth blossom (a mineral), it is most often derived from the by-products of copper smelting, lead smelting, or direct combustion of bismuth.
Nanometer Bismuth Oxide photoelectric materials
Bismuth oxide-based glasses have excellent optical properties. They include high refractive indexes, infrared transmittance and nonlinear optics. This glass can be used to make photoelectric devices or optical fibre transmissions. One of the most important applications of bismuthoxide as an additve is in this category. This glass, Bi2O3 -B2O3 -Si2O3, has a reaction speed of 150fs and can be widely used to optical switch and broadband amplification. Bismuth-based glasses added with caesium, such as 63.3Bi2O3-32.6B2O3-41Si2O3-0.24CeO2, have more excellent performance. Bismuth oxide is 92% of glass weight and has a content of 63.3%. Taiwan National University scientists uniformly dispersed bismuth oxide and titanium dioxide particles (particles are about 10nm in size) in polyacrylate. Sol-gel materials have high optical dispersion, thermal stability and are easy to use. It can have a refractive Index of 1.614-1.694. PbBiGa dioxide glass is a nonlinear and excellent transmitting optical material in the far infrared spectrum. This glass is ideal for optical fibre transmission and photoelectric devices in the infrared.
You can use nanometer bismuth dioxide as a catalyst
Three types can be used to apply bismuth dioxide in catalysts: The molybdenum bismuth catalyst, such as the sol-gel prepared bismuth-molybdenum titan mixed oxide with a specific area of 32-67m2/g. This is an economical and efficient catalyst material for the oxygenation reaction. The industrial uses of bismuth oxide include the ability to convert propylene into acrolein, make acrylonitrile and prepare butadiene through oxidative hydrogenation of propylene; the catalysts to the oxidation furan to butadiene and other processes are the second type of yttrium-bismuth catalyst. It can also be used as a catalyst in the oxidation of methane, ethane, and ethylene. BY25, bismuthoxide doped 25% with yttrium dioxide, is an example of a catalyst that can be used in the oxidation coupling reactions. It has a 15-fold higher efficiency than LiMgO, which is currently the most widely used catalyst. Additionally, it is recyclable for up to 18 time.
Pricing of nanometer bismuth oxide
Nanometer bismuthoxide particle sizes and purity have an effect on its price. The purchase volume may also impact the price of the product. Large quantities of high-quality bismuth oxide will result in a lower price. On our website, you can see the Price of Nanometer Bismuth Oxide.
Nanometer bismuth oxide supplier
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd.
Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical materials. This company is a trusted supplier and manufacturer of high quality chemical materials and nanotechnology products with more than 12 year experience, such as Nanometer Bismuth Oxide, Nitride Powder, graphite Powder, and Sulfide Powder. We are happy to help you find high-quality, cost-effective Nanometer Bismuth Oxide.
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