2,3,5,6-Tetrafluorohydroquinone: A Versatile Fluorinated Building Block
Unlock advanced applications in materials and pharmaceuticals with this key fluorinated intermediate.
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Tetrafluorohydroquinone
This compound is a vital fluorinated intermediate with a molecular formula of C6H2F4O2 and a molecular weight of 182.07200. It is recognized for its extensive use in organic synthesis, medicinal chemistry, and materials science, offering unique properties due to its tetrafluorinated aromatic structure.
- Explore the medicinal chemistry applications of tetrafluorohydroquinone, particularly its role as an HDAC inhibitor, which is crucial for developing new cancer therapies.
- Leverage tetrafluorohydroquinone in materials science for creating advanced fluorinated polymers and high-quality thin films, contributing to enhanced material performance.
- Understand the antioxidant properties of tetrafluorohydroquinone, with an IC50 of approximately 50 μM, positioning it as a valuable compound for research in oxidative stress-related conditions.
- Utilize tetrafluorohydroquinone as a key building block in organic synthesis for constructing complex fluorinated molecules, enabling innovation in chemical research.
Key Advantages
Enhanced Chemical Stability
The strong electron-withdrawing effect of fluorine atoms imparts significant chemical stability, making it resistant to degradation and ideal for demanding applications.
Versatile Reactivity
With both hydroxyl groups and fluorine substituents, this compound offers diverse reaction pathways for synthesis, supporting the creation of novel fluorinated compounds.
Bioactivity Potential
Its demonstrated HDAC inhibitory and antioxidant activities open doors for its use in medicinal chemistry and the development of new therapeutic agents.
Key Applications
Organic Synthesis
Serves as a critical intermediate for synthesizing a wide array of complex fluorinated organic molecules, facilitating research in diverse chemical fields.
Medicinal Chemistry
Investigated for its potential as an HDAC inhibitor and antioxidant, offering avenues for drug discovery and development, particularly in oncology.
Materials Science
Employed in the creation of advanced fluorinated polymers and thin films, enhancing properties like thermal stability and chemical resistance.
Pharmaceutical Intermediates
A valuable precursor for crafting specialized pharmaceutical compounds, leveraging its unique fluorinated structure.