1,8-Dibromooctane: A Versatile Fine Chemical for Advanced Synthesis and Material Science Applications
Discover the key properties and broad applications of 1,8-Dibromooctane, a crucial component in modern chemistry.
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1,8-Dibromooctane
1,8-Dibromooctane is a highly valuable fine chemical intermediate, widely recognized for its role in both cosmetic formulations and pharmaceutical synthesis. Its molecular structure, C8H16Br2, with a molecular weight of 272.02, makes it an ideal building block for complex organic molecules.
- Explore the diverse 1,8-Dibromooctane chemical intermediate uses in creating novel compounds.
- Learn about the essential CAS 4549-32-0 applications in fields ranging from pharmaceuticals to advanced materials.
- Understand why this dibromoalkane is a preferred choice for various synthesis projects.
- Leverage 1,8-Dibromooctane synthesis pathways to enhance your product development cycles.
Key Advantages
High Purity for Reliable Results
With a guaranteed purity of 98%, this compound ensures consistent and predictable outcomes in your research, vital for precise 1,8-Dibromooctane synthesis reactions.
Broad Applicability
Its widespread use in cosmetics and medicine underscores its versatility, making it a go-to chemical for developing new cosmetic ingredient chemical formulations.
Efficient Organic Synthesis
As a critical pharmaceutical intermediate chemical, it facilitates efficient multi-step organic synthesis, accelerating drug discovery and development.
Key Applications
Cosmetic Formulations
Its application in the cosmetic sector highlights its ability to enhance product stability and efficacy, making it a valuable component for innovative cosmetic ingredient chemical development.
Pharmaceutical Synthesis
As a key pharmaceutical intermediate chemical, it plays a crucial role in the synthesis of active pharmaceutical ingredients (APIs), contributing to advancements in healthcare.
Advanced Organic Synthesis
Researchers utilize this dibromoalkane for its reactive properties in complex organic synthesis, enabling the creation of novel molecules with unique functionalities.
Material Science Research
The compound's structure lends itself to applications in material science, where it can be incorporated into polymers or functional materials, driving innovation in various industries.