1H,1H,13H-Perfluorotridecan-1-ol (CAS 423-72-3): A High-Purity Pharmaceutical Chemical
Discover the properties, applications, and safety of this vital fluorinated compound used in pharmaceuticals and industry.
Get a Quote & SampleProduct Core Value
1H,1H,13H-Perfluorotridecan-1-ol
This high-purity chemical, 1H,1H,13H-Perfluorotridecan-1-ol, is a key fluorinated compound with a molecular formula of C13H4F24O and CAS Number 423-72-3. Its unique structure and properties make it valuable in specialized applications.
- Leverage the unique properties of 1H,1H,13H-Perfluorotridecan-1-ol for advanced pharmaceutical synthesis, ensuring high purity for critical applications.
- Explore the role of perfluorinated compounds like CAS 423-72-3 in developing novel drug delivery systems, benefiting from their exceptional chemical stability.
- Understand the detailed toxicological profile of this pharmaceutical chemical, ensuring safe handling and application in research and manufacturing.
- Investigate the potential of fluorinated alcohols in industrial uses such as specialty coatings and lubricants, driven by their low surface energy and thermal resistance.
Product Advantages
Exceptional Chemical Purity
Achieve reliable results with a guaranteed purity of 99%, crucial for sensitive pharmaceutical and chemical research using 1H,1H,13H-Perfluorotridecan-1-ol.
Unique Structural Properties
Benefit from the helical conformational preferences imparted by extensive fluorination, offering distinct molecular behavior compared to hydrocarbon analogs, vital for CAS 423-72-3 applications.
Versatile Application Potential
Utilize this compound in diverse fields, from pharmaceutical intermediates to specialty industrial coatings, leveraging its surfactant properties and chemical resistance.
Key Applications
Pharmaceutical Synthesis
As a high-purity chemical, 1H,1H,13H-Perfluorotridecan-1-ol serves as a critical intermediate in synthesizing complex pharmaceutical compounds, contributing to drug efficacy.
Advanced Materials
Its use in specialty coatings and lubricants is driven by the remarkable thermal stability and chemical resistance inherent to its perfluorinated structure.
Drug Delivery Systems
Researchers explore the potential of this fluorinated compound to enhance the solubility and bioavailability of drugs, improving therapeutic outcomes.
Chemical Research
The compound is an essential tool for investigating PFAS properties, environmental fate, and developing safer alternatives, contributing to advancements in chemical science.