What is bismuth oxid?

The pure bismuth trioxide (nanopowder ) is classified into three types: a, b and d. A type is yellow, monoclinic crystals with a melting point of 825. It’s soluble in both acid and water but insoluble in alkali. The b type has a bright yellow-orange tetragonal crystalline system. Relative density is 8.55. Melting point is 860. Soluble in acid, but insoluble with water. Easily reduced into metallic bismuth using hydrogen, hydrocarbons etc. The cubic fluorite structure of dBi2O3 makes it a unique material. The crystal lattice of d-Bi2O3 is void in 1/4, which gives it a high oxygen conductivity. Bismuth Oxide is mainly used for electronic ceramic powder materials. It can also be used as photoelectric materials, high temperature superconducting materials and catalysts. Bismuth is an essential additive in electronic ceramic materials. Its purity must be at least 99.15%. Main application objects include ceramic capacitors, zinc oxide varistors, and ferrite magnet materials.

The method for synthesis of bismuth dioxide

The aqueous sodium solution without carbon dioxide, which is a solution of sodium chloride in water, was mixed with the bismuth-nitrate solution at 80-90degC. The solution is kept alkaline throughout the precipitation and white bismuth hydrate (Bi(OH)3), which has a volume-swelling effect, forms. This solution is heated, stirred and dehydrated to yellow bismuth trioxide. After decantation of water, filtering, and drying the product, bismuth dioxide, is obtained.

A 0.1 mol/L Bismuth Nitrate Solution dissolved in 1 Mol/L Nitric Acid (80 to 90deg C.) was dropped into a 1.5 mol/L NaOH aqueous a solution to mix the two solutions. During precipitation, the solution remains alkaline. The white, volume-expanded, bismuth oxide trihydrate Bi(OH3) will precipitate, but it will dehydrate and turn into a light yellow bismuth trioxide after stirring in a warm solution. Wash 15 times in water without carbon dioxide or air, then filter and dry.

After melting the metal bismuth in the graphite-crucible, an arc will form between the electrode graphite and the metal’s surface. This arc will heat the metal and cause it to oxidize when oxygen is flowing. For a continuous supply of oxygen to the crucible, it should be kept in a large vessel and placed on agitator. The reaction is carried out at a temperature of 750-800degC and the b bismuth trioxide is generated quickly with a purity level of 99.8%. A high-temperature phase B-type product can then be obtained by quenching the product in water or a cold metal surface.

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