Benzeneacetic Acid, 3-chloro-α-hydroxy-: Your Key Pharmaceutical Intermediate
Discover the essential properties and applications of this high-purity chemical for your formulation needs.
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Benzeneacetic acid, 3-chloro-α-hydroxy-
This compound, identified by CAS 16273-37-3, is a crucial white powder chemical intermediate widely employed in the development of advanced pharmaceutical and cosmetic products. Its high purity (98%) ensures reliable performance in sensitive applications.
- Leverage our understanding of 2-(3-Chlorophenyl)-2-hydroxyacetic acid applications to enhance your product development pipeline.
- Source this white powder fine chemical with confidence, knowing its critical role as a pharmaceutical intermediate C8H7ClO3.
- Explore the synthesis pathways involving 3-chloro-alpha-hydroxyphenylacetic acid for novel compound creation.
- Benefit from the reliability of Benzeneacetic acid 3-chloro alpha hydroxy CAS 16273-37-3 as a high purity pharmaceutical material.
Advantages It Brings
Enhanced Purity Standards
Our Benzeneacetic acid, 3-chloro-α-hydroxy- boasts a 98% purity, crucial for meeting stringent requirements in the pharmaceutical industry, supporting your goal to find chemical CAS number information effectively.
Versatile Application in Cosmetics
The compound serves as a vital ingredient for cosmetic applications, making it a valuable resource for those seeking cosmetic ingredient solutions.
Key Role in Pharmaceutical Synthesis
As a critical pharmaceutical intermediate, this material is essential for synthesizing complex active pharmaceutical ingredients (APIs), aligning with research into pharmaceutical intermediates manufacturing.
Key Applications
Pharmaceutical Intermediates
This chemical acts as a foundational block for a wide array of pharmaceuticals, aiding in the process of pharmaceutical intermediates manufacturing.
Cosmetic Formulations
Its properties make it suitable for integration into various cosmetic products, supporting cosmetic raw material sourcing initiatives.
Diagnostic Reagents
The compound finds utility in the creation of diagnostic reagents, contributing to advancements in the field of diagnostic reagent synthesis.
Fine Chemical Synthesis
It serves as a versatile building block for numerous fine chemicals, essential for fine chemical building blocks and organic synthesis intermediates.