1,3-Difluoropropane: Properties, Applications, and Safety
An in-depth look at CAS 462-39-5, a versatile fluorinated compound essential for chemical innovation.
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1,3-difluoropropane
1,3-difluoropropane is a key organic building block characterized by its two fluorine atoms attached to a three-carbon propane backbone. With the molecular formula C3H6F2, it serves as a vital intermediate in various chemical synthesis processes.
- Understanding the chemical properties of 1,3-difluoropropane is crucial for optimizing its use in synthesis.
- Exploring diverse 1,3-difluoropropane applications reveals its importance across different industrial sectors.
- Sourcing high-quality 1,3-difluoropropane from reliable suppliers ensures product consistency and performance.
- The 1,3-difluoropropane price can vary based on purity, quantity, and supplier, making informed purchasing decisions essential.
Key Advantages
Versatile Chemical Building Block
As a fluorinated organic compound, it offers unique reactivity, making it an indispensable component for synthesizing complex molecules and advanced materials, contributing to innovation in fine chemical synthesis.
Industrial Applicability
The compound finds utility in various industrial applications, acting as a precursor or component in processes where specific fluorinated properties are desired, supporting the development of new specialty chemicals.
Safety and Handling Protocols
Understanding the safe handling of 1,3-difluoropropane, including its flammability, is paramount for laboratory and industrial settings, ensuring secure operations. Adhering to safety guidelines is key when working with this CAS 462-39-5 substance.
Key Applications
Chemical Synthesis
Utilized as a fundamental building block in organic synthesis, 1,3-difluoropropane enables the creation of novel fluorinated compounds with specific properties, vital for advancing research in pharmaceutical and material sciences.
Specialty Chemicals
Its unique chemical structure makes it valuable in the production of specialty chemicals, where precise fluorination is required for performance enhancement in various industrial formulations.
Research and Development
Serving as a crucial reagent in research laboratories, 1,3-difluoropropane supports the exploration of new chemical reactions and the development of innovative materials, underpinning scientific discovery.
Industrial Processes
While specific uses vary, it can be employed in industrial processes requiring fluorinated intermediates or compounds that benefit from the properties imparted by fluorine atoms.