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3,3-Difluorocyclobutanol (DFCB) is a chemical compound that has been used in a variety of scientific research applications. It is a colorless liquid with a boiling point of 93.2 °C and a melting point of -22.7 °C. It is a cyclic ether with a molecular formula of C4H6F2O and a molecular weight of 118.10 g/mol. DFCB is a...
3,3-Difluorocyclobutanol (DFCB) is a chemical compound that has been used in a variety of scientific research applications. It is a colorless liquid with a boiling point of 93.2 °C and a melting point of -22.7 °C. It is a cyclic ether with a molecular formula of C4H6F2O and a molecular weight of 118.10 g/mol. DFCB is a versatile compound that has been used in a variety of research applications, including as a solvent, a reactant, and a catalyst.
3,3-Difluorocyclobutanol serves as a key component in the synthesis of various building blocks, including carboxylic acids, amines, alcohols, azides, trifluoroborates, and ketones. It's particularly noted for its role as a convenient intermediate in the production of these derivatives, highlighting its versatility in organic synthesis (Ryabukhin et al., 2018).
3,3-Difluorocyclobutanol contributes to the preparation of novel heterocyclic compounds. This process is facilitated through reactions involving trifluoro or trichloro substituents, demonstrating its utility in the creation of complex organic structures (Rajkumar, Suman, & Raju, 2015).
This compound plays a role in environmental chemistry, particularly in the extraction of trace pollutants from water samples. Its derivatives, such as magnetite nanoparticles, are used for the adsorption and extraction of perfluorinated compounds (PFCs) from environmental samples, showcasing its potential in pollution control and environmental remediation (Zhang et al., 2010).
In the electronics sector, 3,3-Difluorocyclobutanol is utilized in the production of polymeric gate dielectrics for organic thin film transistors. Its derivatives, such as perfluorocyclobutane polymers, offer advantages like high on/off current ratios, indicating its importance in the development of electronic devices (Ghim et al., 2006).
Derivatives of 3,3-Difluorocyclobutanol, such as perfluorocyclobutanes (PFCBs), are explored for space-based applications. These polymers combine the process advantages of thermoplastics with the properties of traditional fluoropolymers, making them suitable for extreme environmental conditions encountered in space. Modifications and composites of PFCBs are researched to enhance their space durability and conductivity (Gavrin et al., 2004).
The thermal properties of fluorosilicones containing perfluorocyclobutane rings have been investigated. These studies focus on understanding the glass transition temperatures and thermal stability of these materials, which are important for applications in high-temperature environments (Rizzo & Harris, 2000).
Product Name : | 3,3-Difluorocyclobutanol | ||
CAS No. : | 637031-88-0 | Molecular Weight : | 108.09 |
MDL No. : | MFCD18791191 | Purity/ Specification : | |
Molecular Formula : | C4H6F2O | Storage : | Sealed in dry,Store in freezer, under -20°C |
Boiling Point : | - |
GHS Pictogram : | |||
Signal Word : | Warning | Precautionary Statements : | P301+P312+P330 |
UN# : | N/A | Class : | N/A |
Hazard Statements : | H302 | Packing Group : | N/A |