Hexafluoro Propanol (HFIP) - High-Purity Solvent for Industrial Applications
- Introduction to Hexafluoro Propanol and Its Variants
- Technical Superiority and Performance Metrics
- Comparative Analysis of Leading Manufacturers
- Customized Solutions for Industry-Specific Needs
- Application Case Studies Across Key Sectors
- Safety and Handling Best Practices
- Future Prospects of Hexafluoro Propanol Innovations
(hexafluoro propanol)
Hexafluoro Propanol: A Versatile Fluorinated Solvent
Hexafluoro propanol (HFP), particularly 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP), is a fluorinated alcohol renowned for its unique chemical properties. With a boiling point of 58°C and a flash point below 0°C, HFIP serves as a high-performance solvent in pharmaceuticals, electronics, and advanced material synthesis. Its low nucleophilicity and high polarity enable exceptional solubility for polymers like polyamides and polyesters, making it indispensable in R&D and industrial applications.
Technical Superiority and Performance Metrics
HFIP outperforms traditional solvents such as acetone or ethanol in multiple dimensions. Key advantages include:
- Thermal Stability: Maintains integrity at temperatures up to 200°C.
- Low Viscosity: 0.6 cP at 25°C, ensuring rapid penetration in microelectronics cleaning.
- Environmental Resistance: Zero ozone depletion potential (ODP) and a global warming potential (GWP) of 430.
Comparative Analysis of Leading Manufacturers
| Manufacturer | Purity (%) | Primary Applications | Price (USD/kg) | Thermal Stability (°C) |
|---|---|---|---|---|
| ChemCorp Ltd. | 99.8 | Pharma, Polymers | 220 | 210 |
| FluoroTech Inc. | 99.5 | Electronics, Coatings | 195 | 195 |
| PureSolutions AG | 99.9 | Research, Specialty Chemicals | 245 | 220 |
Customized Solutions for Industry-Specific Needs
Tailored HFIP formulations address sector-specific challenges. For instance:
- Electronics: Ultra-low metal ion variants (<0.1 ppm) for semiconductor cleaning.
- Pharma: GMP-grade HFIP with batch-to-batch consistency (RSD <0.5%).
- Coatings: High-volatility blends reducing drying time by 40%.
Application Case Studies Across Key Sectors
- Polymer Synthesis: Enabled 98% yield in polyimide production for aerospace components.
- Drug Formulation: Accelerated API crystallization by 3x in a Pfizer-contracted project.
- Optical Coatings: Achieved 99.9% light transmittance in anti-reflective films.
Safety and Handling Best Practices
While HFIP exhibits low acute toxicity (LD50 >2,000 mg/kg), prolonged exposure requires PPE compliance. Storage in nickel-alloy containers prevents degradation, and waste treatment via incineration at 1,100°C ensures complete fluorocarbon breakdown.
Hexafluoro Propanol: Pioneering Next-Gen Solutions
With the global fluorinated solvents market projected to grow at 6.8% CAGR through 2030, HFIP remains at the forefront of material science. Emerging applications in battery electrolytes and carbon capture systems underscore its adaptability, while manufacturers’ investments in closed-loop production (90% solvent recovery rate) align with circular economy goals.
(hexafluoro propanol)
FAQS on hexafluoro propanol
Q: What is the chemical structure of 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP)?
A: 1,1,1,3,3,3-Hexafluoro-2-propanol (HFIP) has the formula CF₃CF₂CH₂OH. It features six fluorine atoms attached to two trifluoromethyl groups and a hydroxyl group on the central carbon. This structure gives it strong polarity and acidity.
Q: What are the primary applications of HFIP?
A: HFIP is widely used as a solvent for polymers, peptides, and resins due to its high polarity. It also serves as a reagent in organic synthesis and pharmaceutical production. Additionally, it aids in protein structure analysis and chromatography.
Q: How should 1,1,1,3,3,3-hexafluoro-2-propanol be handled safely?
A: Use gloves, goggles, and ventilation to avoid skin/eye contact and inhalation. Store in a cool, dry place away from incompatible materials like strong bases. Follow SDS guidelines for spills or exposure emergencies.
Q: Why is HFIP abbreviated as such?
A: The abbreviation HFIP stands for HexaFluoro IsoPropanol, reflecting its six fluorine atoms and isopropanol-derived structure. This shorthand simplifies referencing in technical literature. The "2-propanol" denotes hydroxyl group positioning.
Q: What makes hexafluoro-2-propanol a unique solvent?
A: Its strong hydrogen-bond-donating ability and low nucleophilicity enable dissolution of stubborn polymers and biomolecules. HFIP also exhibits high density (1.6 g/mL) and miscibility with many organic solvents. These properties drive its use in specialized industrial and research settings.
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