What is Bismuth oxide and its application

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Was bismuth dioxide? Bismuth dioxide This inorganic compound is characterized by the molecular structure Bi2O3. A type, b and d types are available for the pure product. A type of yellow monoclinic quartz crystal has a relative densitvity 8.9, melting temperature 825, water-soluble, insoluble and alkali. B types are bright yellow to orange and have a tetragonal system with relative densitvity 8.55, meltingpoint 860, water-soluble acid. This can be easily converted to metallic bismuth with hydrogen or hydrocarbons. dBi2O3 (a unique material that has a cubic fluorite-ore structure) is one example. The crystal structure of bismuth oxide has 1/4 vacant oxygen ion location, which gives it a high oxygen ion conductivity. Electronic ceramic powder, electronic materials, photoelectric materials and high-temperature superconducting material are the main applications of bismuth dioxide. To be used as an essential additive to electronic ceramic powder materials it must have a purity of at least 99.15%. These are the principal applications of zinc oxide varistors as well ceramic capacitors and ferrite magnet materials.

Bismuth oxide preparation
1. Add a dropwise amount of sodium hydroxide water aqueous solution to the bismuth-nitrate solution (80-90degC) and mix. The solution does not precipitate alkaline, but it forms white-colored bismuth oxideshydrate bi(OH),3 crystals. To make yellow, heat the solution and stir it briefly. bismuth triooxide . You can get the final bismuth oxide product by washing it with water, filtering, drying and then cleaning.
2. Mix them in a nitrogen atmosphere by adding dropwise 1.5 mol/L sodium hydroxylide aqueous solution, without carbon dioxide, to 0.1 mol/L bismuth-nitrate solution. After precipitation, the solution will remain alkaline. Although the white volume-expanded bismuth oxyhydrate Bi(OH),3 precipitates, once it has been stirred for a few minutes in hot solution, it becomes light yellow bismuth trioxide. Decant and rinse 15 times using water that is free of carbon dioxide and oxygen.
3. Once the bismuth has been melted in the graphitecrucible, the oxygen flow creates an arc between the graphite and metal surfaces to heat up and oxidize. You should place the crucible in a large container. The oxygen must also be supplied continuously to maintain a sufficient supply. Rapidly, b-bismuth-trioxide is formed at a temperature of 750 to 800°C. The product can then be quenched with water or placed on a cold plate to form a high temperature phase b-type.
4. Slowly stir the excess sodium carbate solution with 20g Bi(NO3)3*5H2O acids solution. Take the Bi2O3CO3 precipitate, filter it, wash it, and dry. It can be placed in an aluminum vessel and heated at 650K for 1.5 hours.
5. For approximately (34h), heat the bismuth nitrate to 400500.
Once the fire is out, it cools down and all turns into lemony yellow.

Bismuth Oxide applications
This is used for the preparation of bismuth sodium; it can also be used as an electronic ceramic material, electrolyte, photoelectric material and high-temperature superconducting materials catalyst. To be used as an additive in electronic ceramic materials, bismuth dioxide must have a purity of at least 99.15%. There are three main uses for bismuth oxide: ceramic capacitors and zinc oxide varistors; glaze rubber compounding, medicine, red glass compounding agents, among others.

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