Understanding 4-Chloro-4'-hydroxybenzophenone: Properties, Applications, and Synthesis in Pharmaceutical Intermediates
Explore the vital role of this key chemical intermediate in pharmaceutical manufacturing and organic synthesis.
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4-Chloro-4'-hydroxybenzophenone
As a critical chemical intermediate, 4-Chloro-4'-hydroxybenzophenone (CAS 42019-78-3) is indispensable in the pharmaceutical sector, particularly for the synthesis of Fenofibrate. Its robust chemical structure and high purity make it a cornerstone for developing crucial medications aimed at managing cholesterol levels. This compound's adaptability also positions it as a valuable asset in broader organic synthesis applications.
- Leveraging the specific properties of 4-chloro-4-hydroxybenzophenone intermediate enables efficient Fenofibrate production, contributing to vital healthcare solutions.
- The CAS 42019-78-3 properties highlight its stability and suitability for demanding chemical synthesis processes.
- Sourcing high-quality pharmaceutical intermediates from China ensures reliability and consistency in manufacturing pipelines.
- Exploring the applications of 4-chloro-4-hydroxybenzophenone reveals its potential in creating various benzophenone derivatives for diverse industrial needs.
Key Advantages
Purity and Consistency
Ensure reliable outcomes in your processes by utilizing a chemical intermediate with a guaranteed assay of over 98.0%, a crucial factor when focusing on pharmaceutical intermediate quality control.
Versatile Synthesis Component
The dual functionality of its chloro and hydroxy groups makes it a highly adaptable building block for complex organic synthesis and the development of innovative benzophenone derivatives.
Established Pharmaceutical Role
Its critical role in Fenofibrate production underscores its importance in the pharmaceutical supply chain, supporting the development of essential cardiovascular health treatments.
Key Applications
Pharmaceutical Synthesis
As a key building block, it is essential for the manufacturing of Fenofibrate, contributing significantly to cardiovascular health treatments and demonstrating its importance in pharmaceutical intermediate manufacturing.
Organic Chemistry
Its versatile chemical structure makes it a valuable precursor for a wide array of organic synthesis reactions, enabling the creation of novel compounds and fine chemical sourcing strategies.
Medicinal Chemistry Research
Researchers leverage its properties for developing new therapeutic agents and understanding reaction pathways, highlighting its role in advancing medicinal chemistry research.
Derivative Development
The potential to synthesize various benzophenone derivatives makes it a valuable compound for industries looking for advanced materials and specialized chemical intermediates.