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The Synthetic Routes of Ammonium zirconium carbonate

 Last Update: 2023-04-30
 Source: Internet
 Author: User

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high activity

solid state nmr

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Ammonium zirconium carbonate (AZC) is an important catalyst in the chemical industry.
It is widely used in the production of a variety of chemicals, including caprolactam, acrylonitrile, and methyl acrylate.
AZC has a number of advantages over other catalysts, including its high activity, stability, and resistance to poisoning.
As a result, it is a key component in many industrial processes.

There are several methods for synthesizing AZC, including the following:

The most common method involves reacting zirconium oxychloride with ammonia in the presence of a solvent, such as ethanol or water.
The reaction produces AZC as a solid precipitate, which is then filtered and washed to remove any impurities.
Another method involves the reaction of zirconium oxide with ammonia in the presence of a strong acid, such as sulfuric acid.
The resulting slurry is then filtered and washed, and the AZC is recovered by calcination at a high temperature.
AZC can also be synthesized by reacting zirconium oxide with ammonium carbonate in the presence of a solvent, such as water or ethanol.
The resulting precipitate is then filtered and washed, and the AZC is recovered by calcination.
Another method involves the reaction of zirconium oxide with ammonium hydroxide in the presence of a solvent, such as water or ethanol.
The resulting slurry is then filtered and washed, and the AZC is recovered by calcination.

Each of these methods has its own advantages and disadvantages, and the choice of method depends on the desired properties of the final product.
For example, the first method typically produces a product with a higher particle size, while the fourth method produces a more finely divided product.
The second and third methods are similar, and they both typically produce a product with good flow properties and a low particle size.

In addition to these synthetic routes, AZC can also be prepared by other methods, such as hydrothermal synthesis and solid-state synthesis.
These methods have the advantage of producing a more homogeneous product, but they are more complex and typically require specialized equipment.

Once the AZC has been synthesized, it is typically calcined at a high temperature to remove any impurities and to activate the catalyst.
The resulting product is then ready for use in a variety of industrial processes.

Overall, the synthetic routes for AZC are diverse and can be tailored to produce a product with the desired properties.
This versatility has made AZC a key component in many industrial processes and has contributed to its widespread use in the chemical industry.

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