3-Phenyl-cyclohexanone: A Versatile Fine Chemical for Synthesis, Fragrance, and Pharmaceutical Applications
Discover the diverse applications and key properties of this essential organic compound in various industries.
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3-Phenyl-cyclohexanone
3-Phenyl-cyclohexanone is a critical fine chemical with a unique molecular structure that makes it highly sought after in various industrial and research sectors. Its phenyl-substituted cyclohexanone ring imparts favorable reactivity and stability, positioning it as a key component in sophisticated chemical processes.
- Leverage 3-phenyl-cyclohexanone synthesis for creating complex cyclic ketone derivatives.
- Explore 3-phenyl-cyclohexanone applications in pharmaceutical development as a crucial intermediate.
- Source high-quality 3-phenyl-cyclohexanone from reliable suppliers for your research needs.
- Understand the diverse 3-phenyl-cyclohexanone uses in pharma and fine chemical manufacturing.
Product Advantages
Versatile Building Block
As a key building block in organic synthesis, 3-phenyl-cyclohexanone enables the creation of intricate molecular architectures essential for advanced chemical products.
Industry Applications
Its 3-phenyl-cyclohexanone applications span across pharmaceuticals, agrochemicals, fragrances, and materials science, highlighting its broad utility.
Chemical Reactivity
The compound's inherent reactivity makes it an ideal starting material for various chemical transformations, aiding innovation in chemical research.
Key Applications
Pharmaceutical Development
This compound is instrumental in the synthesis of various pharmaceutical compounds, contributing to the development of new medications with enhanced efficacy, making it a focus of 3-phenyl-cyclohexanone uses in pharma.
Fragrance and Flavor Industry
Its aromatic profile makes it a valuable ingredient in the formulation of perfumes and flavorings, enhancing product appeal and sensory characteristics.
Material Science
3-Phenyl-cyclohexanone is utilized in the production of polymers and resins, leading to the development of materials with improved durability and thermal stability.
Organic Synthesis Research
Researchers rely on it as a fundamental building block for organic synthesis, facilitating the construction of complex molecules for a wide array of chemical applications.