2-Adamantanol: A Versatile Intermediate for Pharmaceutical Synthesis and Fine Chemical Applications
Discover the key properties and applications of 2-Adamantanol, a vital component in advanced chemical synthesis.
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2-Adamantanol
2-Adamantanol is a crucial organic compound primarily utilized as an intermediate in the synthesis of various complex molecules, most notably the anti-allergic drug mizolastine. Its high purity and adherence to stringent quality standards make it a reliable choice for pharmaceutical manufacturing and fine chemical applications.
- Leverage 2-Adamantanol pharmaceutical intermediate for your drug development projects, ensuring high quality and reliability.
- Explore the synthesis pathways of 2-Adamantanol to understand its role in creating advanced chemical compounds.
- Source 2-Hydroxyadamantane from trusted suppliers to meet your research and production needs.
- Utilize CAS 700-57-2 as a key chemical intermediate in your organic synthesis processes.
Key Advantages
High Purity and Quality Assurance
Benefit from the superior quality of 2-Adamantanol, often supplied with a minimum assay of 98.0% or higher, ensuring consistent performance in your applications.
Versatile Application in Synthesis
As a vital chemical intermediate, 2-Adamantanol facilitates the creation of advanced compounds, particularly in the pharmaceutical sector, supporting innovative drug development.
Compliance with Industry Standards
Our products adhere to recognized standards such as USP, BP, and EP, guaranteeing that the 2-Adamantanol you purchase meets rigorous global requirements.
Key Applications
Pharmaceutical Synthesis
Primarily used as a critical building block for synthesizing active pharmaceutical ingredients, including anti-allergic medications, demonstrating its importance in healthcare innovation.
Organic Synthesis
Serves as a versatile intermediate in general organic synthesis, enabling the creation of a wide array of complex molecules and advanced materials.
Fine Chemical Production
Its unique adamantane structure makes it valuable in the production of fine chemicals, where specific structural properties are required for specialized applications.
Research and Development
Essential for laboratory research and development activities, aiding scientists in exploring new chemical reactions and discovering novel compounds.