Discover the versatility of N-Butyl vinyl ether, a clear, colorless liquid that boasts a purity of 98%. With a molecular weight of 100.16g/mol and a boiling point of 94°C, this aliphatic compound offers a unique blend of chemical properties. Unlock its potential in a wide range of applications, from organic synthesis to polymer production. Handle with care, as it is highly flammable and may cause skin and eye irritation. Always store in a cool, well-ventilated area, away from sources of ignition. Embrace the power of this exceptional building block and elevate your chemical endeavors to new heights.
N-Butyl vinyl ether, with the CAS number 111-34-2, is a highly versatile aliphatic compound that finds its applications in a wide range of scientific and industrial domains. This clear, colorless liquid offers a unique combination of chemical properties, making it a valuable asset for researchers, chemists, and manufacturers alike.
The molecular formula of N-Butyl vinyl ether is C6H12O, with a molecular weight of 100.16 g/mol. Its IUPAC name, 'Butyl vinyl ether,' reflects the compound's structure, which features a vinyl group attached to a butyl chain. This distinct arrangement endows N-Butyl vinyl ether with exceptional reactivity and diverse functionality, unlocking a wealth of potential applications.
In the pharmaceutical and agrochemical industries, N-Butyl vinyl ether serves as a crucial building block in the synthesis of innovative compounds. Its reactivity and selectivity make it a valuable reagent, allowing researchers to develop new drug candidates, crop protection agents, and other specialized molecules with tailored properties. The compound's ability to participate in a variety of chemical reactions, such as polymerization and addition reactions, enables the creation of complex structures with enhanced biological activity or agrochemical efficacy.
Furthermore, N-Butyl vinyl ether's versatility extends to the field of material science, where it finds use in the development of advanced polymers and coatings. Its integration into these materials can impart desirable characteristics, such as improved mechanical strength, thermal stability, or optical performance, opening up new possibilities for innovative applications.
As a highly reactive aliphatic compound, N-Butyl vinyl ether is a valuable tool in the hands of organic chemists and synthetic researchers. Its ability to undergo a range of transformations, including addition, substitution, and polymerization reactions, allows for the creation of diverse chemical structures and compounds. This versatility makes N-Butyl vinyl ether a sought-after reagent in the field of organic synthesis, where it enables the exploration of novel molecular architectures and the development of innovative materials.
The compound's high purity, as indicated by its 98% purity, ensures reliable and consistent results in experimental settings. Its physical properties, such as a boiling point of 94°C and a melting point of -92°C, further contribute to its ease of handling and integration into various chemical processes.
N-Butyl vinyl ether is classified as a highly flammable liquid and an irritant, with associated hazard statements H225, H315, H319, and H335. Appropriate safety precautions must be taken when handling this compound, including the use of personal protective equipment (PPE), such as gloves, goggles, and a face mask, as well as working in a well-ventilated area or outdoors. Avoid breathing in the vapors, mists, or sprays, and take measures to prevent static discharge and the buildup of electrostatic charge.
For long-term storage, N-Butyl vinyl ether should be kept in a cool, well-ventilated area, with the container tightly closed and away from sources of ignition. Following these guidelines will ensure the compound's stability and purity over an extended period, allowing for its optimal performance in various applications.
N-Butyl vinyl ether's versatility and unique properties make it a valuable asset in the realms of pharmaceutical research, agrochemical development, and advanced material synthesis. Its ability to participate in a wide range of chemical transformations, combined with its high purity and well-defined physical characteristics, position it as a crucial tool for scientists and researchers seeking to push the boundaries of innovation.
Explore the full potential of N-Butyl vinyl ether by delving into the wealth of technical resources, safety guidelines, and application-specific information available. Unlock new possibilities in your research and development endeavors, and harness the power