Unlock Chemical Synthesis with 4'-Fluoro-3'-hydroxyacetophenone
A high-purity, versatile intermediate essential for your advanced chemical and pharmaceutical projects.
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4'-Fluoro-3'-hydroxyacetophenone
As a key pharmaceutical intermediate, 4'-Fluoro-3'-hydroxyacetophenone (CAS: 949159-95-9) is crucial for the development of novel therapeutics. Its unique chemical structure makes it an invaluable building block in complex organic synthesis pathways, contributing to the creation of advanced molecules.
- Discover efficient pharmaceutical intermediate synthesis using this high-purity acetophenone derivative.
- Source this specialty chemical with confidence from reliable manufacturers in China for your organic synthesis projects.
- Enhance your research and development with the consistent quality of 4'-Fluoro-3'-hydroxyacetophenone.
- Leverage our expertise in chemical manufacturing to ensure a stable supply chain for your production needs.
Advantages of Using This Product
Exceptional Purity
Achieve reliable and reproducible results in your synthesis thanks to the guaranteed 99% minimum purity, supporting precise organic synthesis.
Broad Applicability
This compound serves as a critical building block in numerous chemical synthesis pathways, making it a versatile tool for researchers and manufacturers.
Quality Assurance
Our commitment to quality ensures that you receive a product that meets stringent standards, essential for the demanding pharmaceutical industry.
Key Applications
Pharmaceutical R&D
A crucial component in the synthesis of active pharmaceutical ingredients (APIs) and drug candidates, enabling breakthroughs in new therapies.
Organic Synthesis
Facilitates the creation of complex organic molecules, providing essential structural elements for various chemical research and development projects.
Specialty Chemical Production
Used as a key intermediate in the manufacturing of various specialty chemicals, contributing to diverse industrial applications.
Materials Science
Potential applications in the development of novel materials due to its unique chemical structure and reactivity.