High-Purity 3,5-Difluorochlorobenzene: A Versatile Intermediate for Pharmaceuticals, Agrochemicals, and Liquid Crystals
Discover the key applications and chemical properties of 3,5-Difluorochlorobenzene, a vital compound for advanced chemical synthesis.
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3,5-Difluorochlorobenzene
3,5-Difluorochlorobenzene (CAS: 1435-43-4) is a high-purity, colorless liquid chemical intermediate, essential for various industrial applications. Its unique molecular structure, featuring strategic halogen substitutions, makes it a critical component in the synthesis of complex molecules across different sectors. The compound's reliability and versatility underscore its importance in driving innovation in chemical manufacturing.
- As a crucial 3,5-Difluorochlorobenzene pharmaceutical intermediate, it facilitates the development of novel drug candidates with improved pharmacological profiles.
- Its role as a high purity 3,5-difluorochlorobenzene intermediate is vital for the synthesis of advanced liquid crystal materials used in display technologies.
- This CAS 1435-43-4 agrochemical precursor is instrumental in creating effective herbicides and pesticides for modern agriculture.
- The compound's applications in materials science highlight its contribution to developing materials with enhanced thermal and chemical resistance.
Product Advantages
Enhanced Chemical Reactivity
The fluorine and chlorine atoms on the benzene ring of 3,5-Difluorochlorobenzene provide unique reactivity, enabling diverse chemical transformations for the synthesis of specialized compounds.
Versatile Application Spectrum
From life-saving pharmaceuticals to yield-enhancing agrochemicals and cutting-edge liquid crystal materials, this intermediate supports a broad range of high-value applications.
High Purity and Quality Assurance
With purity levels typically exceeding 99%, it meets stringent industry standards, ensuring reliable performance in complex synthesis pathways and R&D projects.
Key Applications
Pharmaceutical Synthesis
The synthesis of fluorinated drug candidates often relies on intermediates like 3,5-Difluorochlorobenzene to impart specific pharmacokinetic and biological properties.
Agrochemical Development
Used as a key agrochemical precursor, it helps in the creation of stable and effective herbicides and pesticides for crop protection.
Materials Science
Its unique structure makes it valuable for developing materials with tailored properties, including advanced liquid crystal formulations.
Research and Development
As a versatile organic intermediate, it is widely utilized in laboratories for exploring new chemical reactions and synthesizing novel compounds.