Chemical products have inexorably invaded our daily lives as a result of the advancement of science and technology as well as social development. They are now a necessary component of our daily lives in fields such as manufacturing, electronics, food, cosmetics, and medicine. In the world of organic chemistry, countless compounds play pivotal roles in various industries and research fields. One such product is Diphenylacetonitrile which has developed particularly rapidly in recent years. CAS 86-29-3, also known as Diphenylacetonitrile, is one such Organic Intermediate compound that has garnered significant attention. This blog post aims to provide a comprehensive overview of CAS 86-29-3, exploring its properties, applications, and significance in the chemical landscape.

Chemical Structure and Properties

CAS 86-29-3 refers to Diphenylacetonitrile, an organic intermediate with the molecular formula C14H11N. At first glance, the compound’s chemical structure may appear complex, but breaking it down reveals its fundamental components. Diphenylacetonitrile consists of two phenyl rings bonded to an acetonitrile group. This unique arrangement imparts distinctive properties to the compound, making it suitable for various applications.

Diphenylacetonitrile is a powder that ranges in color from white to creamy or pale yellow and is soluble in ethanol and ether. It is made by broiling phenylacetonitrile and condensing it. Diphenylacetonitrile is primarily utilized as an intermediary in the production of API that is used to treat respiratory stimulants. Diphenoxylate, Diphenylacetaldehyde, Doxapram, Loperamide, and Methadone are just a few of the APIs that are made using it.

Synthesis

Diphenylacetonitrile can be synthesized through multiple methods, with the most common approach involving the reaction between benzyl chloride and sodium cyanide. The reaction proceeds under specific conditions, including the presence of a suitable solvent and an appropriate catalyst. Careful control of reaction parameters ensures a high yield and purity of the final product.

Applications

CAS 86-29-3 finds application in diverse industries due to its unique properties. Some notable applications include:

1. Pharmaceutical Industry

Diphenylacetonitrile serves as a valuable building block in the synthesis of numerous pharmaceutical compounds. Its incorporation into drug molecules imparts desirable properties such as improved solubility, stability, and biological activity. The compound’s versatility enables the development of novel drugs and contributes to advancements in the healthcare sector.

2. Agrochemicals

The agricultural sector benefits from the use of Diphenylacetonitrile in the synthesis of agrochemicals. These compounds play a crucial role in crop protection, enhancing crop yield, and controlling pests and diseases. The compound’s chemical structure and reactivity make it a valuable component in the production of effective agrochemical formulations.

3. Specialty Chemicals

Diphenylacetonitrile also finds utility in the production of specialty chemicals. These chemicals serve various purposes, ranging from industrial applications to research and development. The compound’s unique structure offers opportunities for customization, enabling the creation of tailored specialty chemicals to meet specific requirements.

In general, Diphenylacetonitrile, with the molecular formula C14H11N, can be used as a herbicide, a pre-budding agent for turf to stop young grasses from budding, a further preparation agent for UV coatings, PU paint, transparent elastomers, adhesives, and other products, as well as an organic synthesis intermediate for polyamide and epoxy resin. It is employed in medicine to make analgesics, phenylethyl piperidine, and gastric amine. By brominating and condensing phenyl acetonitrile, the production process is obtained.

Significance in Research

CAS 86-29-3, being a versatile compound, has attracted significant interest from the scientific community. Researchers explore its reactivity, behavior under different conditions, and potential applications. Studies focus on developing more efficient synthesis methods, exploring its potential as a catalyst, and investigating its interactions with other compounds. The insights gained from such research contribute to advancements in organic chemistry and pave the way for further innovations.

Safety Considerations

As with any chemical compound, proper safety precautions must be followed when handling Diphenylacetonitrile. It is essential to consult material safety data sheets (MSDS) and adhere to recommended guidelines regarding storage, handling, and disposal. Employing appropriate protective equipment and ensuring proper ventilation minimizes potential risks associated with the compound.

Conclusion

CAS 86-29-3, Diphenylacetonitrile, stands as a fascinating compound with versatile applications in pharmaceuticals, agrochemicals, and specialty chemicals. Its unique chemical structure and properties make it an essential building block for numerous organic compounds. Ongoing research and advancements in synthesis methods continue to expand its potential applications. By understanding the significance of CAS 86-29-3, scientists and industry professionals can harness its capabilities to drive innovation and progress in various fields.

Tags: CAS 86-29-3, Diphenylacetonitrile

Product Details: CAS 86-29-3 Diphenylacetonitrile

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