Diphenylacetyl Chloride (CAS 1871-76-7): A Versatile Pharmaceutical Intermediate and Reagent
Discover the essential properties and applications of Diphenylacetyl Chloride in advanced chemical synthesis and drug development.
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Diphenylacetyl Chloride
Diphenylacetyl chloride is a critical chemical compound recognized for its utility as a high-purity pharmaceutical intermediate. It plays a significant role in various organic synthesis pathways, contributing to the development of advanced chemical products.
- Leverage Diphenylacetyl chloride pharmaceutical intermediate capabilities for your drug development pipeline.
- Utilize this versatile CAS 1871-76-7 reagent in synthesis to achieve precise acylation outcomes.
- Explore the buy Diphenylacetyl chloride for acylation applications to enhance reaction efficiency.
- The preparation of N-substituted amides benefits greatly from Diphenylacetyl chloride, enabling novel compound discovery.
Key Advantages
Enhanced Synthesis Purity
Achieve superior reaction results with the high purity of Diphenylacetyl chloride, ensuring the quality of your pharmaceutical intermediates.
Versatile Reactivity
Employ this reagent in synthesis for diverse applications, including regioselective acylation and amide formation, as supported by its CAS 1871-76-7 designation.
Facilitates Complex Molecule Construction
Its role in the synthesis of beta-lactam estrogen receptor antagonists highlights its importance in creating complex and therapeutically relevant molecules.
Key Applications
Pharmaceutical Intermediates
As a crucial pharmaceutical intermediate, Diphenylacetyl chloride is instrumental in the synthesis of various active pharmaceutical ingredients.
Organic Synthesis
Its reactivity makes it a valuable reagent in organic synthesis for creating complex organic molecules and functional groups.
Regioselective Acylation
Diphenylacetyl chloride is specifically used for regioselective acylation of cyclomalto-oligosaccharides, a key step in specialized carbohydrate chemistry.
N-Substituted Amide Preparation
The compound is employed in the preparation of N-substituted amides, which may possess properties such as local anesthetic activity.