Unlock the Potential: Understanding 2,4-Difluorothiophenol for Organic Synthesis and Pharmaceutical Intermediates
Discover the key applications and properties of 2,4-difluorothiophenol, a vital compound for chemical innovation.
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2,4-Difluorothiophenol
2,4-Difluorothiophenol is a critical organic intermediate renowned for its utility in complex chemical synthesis pathways. Its distinct molecular structure makes it an invaluable component for developing novel compounds in the pharmaceutical and fine chemical sectors.
- Explore the use of 2,4-difluorothiophenol as a key 2,4-difluorothiophenol synthesis intermediate in the creation of advanced organic molecules.
- Understand its role as a vital pharmaceutical intermediate organic synthesis component, facilitating drug discovery.
- Delve into the detailed CAS 1996-44-7 chemical properties, including its assay purity and reactivity.
- Learn about the characteristics of this light yellow liquid organic compound and its handling requirements.
Key Advantages
Versatile Building Block
The molecule's structure makes it a versatile building block for creating sulfur-containing bioactive molecules, contributing significantly to organic synthesis building block applications.
Pharmaceutical Relevance
Its application as a pharmaceutical intermediate organic synthesis component highlights its importance in developing new therapeutic agents.
Chemical Purity and Stability
With an assay of 98% minimum, this compound ensures high purity for sensitive chemical reactions and research, crucial for reliable CAS 1996-44-7 chemical properties understanding.
Key Applications
Organic Synthesis
Serves as a foundational compound in various organic synthesis pathways, enabling the construction of complex molecular architectures.
Pharmaceutical Development
Utilized as a key intermediate in the development of active pharmaceutical ingredients (APIs) and drug candidates.
Fine Chemicals Manufacturing
Essential in the production of specialty chemicals for diverse industrial and research applications.
Medicinal Chemistry Research
Its fluorinated aromatic structure makes it a valuable tool for medicinal chemists exploring structure-activity relationships.