Discover the power of Hexen-5-ol, a versatile intermediate that unlocks new possibilities in chemical synthesis. This colorless oil, with a molecular weight of 212.554g/mol, boasts a unique InChI key and SMILES code, making it a valuable asset for researchers and chemists. Derived from a CAS number of 626-94-8, Hexen-5-ol serves as a crucial reagent in the formation of 5-chloro-2-hexyl-2-d trifluoro-acetate, enabling a 1,4-chlorine shift. Explore the depth of its applications, from pharmaceuticals to agrochemicals, and unlock the potential of this exceptional intermediate in your next groundbreaking project.
Handling with care is essential, as Hexen-5-ol may cause skin and eye irritation. Always store in a cool, well-ventilated area, keeping the container tightly sealed. Embrace the precision and performance of this exceptional compound and elevate your research to new heights.
Hexen-5-ol, with the CAS number 626-94-8, is a highly versatile and valuable chemical compound that serves as a crucial intermediate in the synthesis of various organic compounds. This clear, colorless oil possesses a unique molecular structure that makes it a sought-after reagent in the realms of pharmaceutical research, agrochemical development, and advanced material science.
The chemical formula of Hexen-5-ol is C6H12O, with a molecular weight of 100.16 g/mol. Its IUPAC name, 3-chloro-4-(trifluoromethoxy)phenol, reflects the presence of a chloro group and a trifluoromethoxy moiety, which contribute to its distinct properties and diverse applications. The compound's InChI code, InChIKey=ZDKAPCMMTRJKTR-UHFFFAOYSA-N, provides a unique identifier for researchers and chemists working with this versatile intermediate.
Hexen-5-ol is a crucial intermediate in the synthesis of 5-Chloro-1-hexene, a reagent that, when combined with difluoroacetic acid, results in the formation of 5-chloro-2-hexyl-2-d trifluoro-acetate and a 1,4-chlorine shift. This synthetic pathway highlights the compound's versatility and its ability to enable the creation of more complex organic molecules with tailored properties.
Beyond its role in the synthesis of 5-Chloro-1-hexene, Hexen-5-ol can be further functionalized and incorporated into a wide range of chemical reactions and synthetic schemes. Its unique structural features, such as the chloro and trifluoromethoxy groups, make it a valuable building block for the development of novel pharmaceutical compounds, agrochemicals, and advanced materials.
In the pharmaceutical industry, Hexen-5-ol serves as a key intermediate in the synthesis of drug candidates targeting a variety of therapeutic areas. Its chemical properties and reactivity allow for the incorporation of the compound into complex molecular structures, enabling the creation of innovative pharmaceuticals with improved pharmacological profiles and therapeutic potential.
Similarly, in the agrochemical sector, Hexen-5-ol is employed as a building block for the development of advanced crop protection agents. The compound's distinct structural characteristics contribute to the formulation of potent and selective pesticides, herbicides, and fungicides, which can help improve crop yields and minimize environmental impact.
The versatility of Hexen-5-ol extends beyond the pharmaceutical and agrochemical realms, as it also finds applications in the field of material science. Researchers in this domain utilize the compound as a starting material or intermediate in the synthesis of novel materials with enhanced properties, such as improved thermal stability, mechanical strength, or optical performance. These advanced materials can be integrated into a wide range of applications, from high-tech electronics to specialized coatings and composites.
When handling Hexen-5-ol, it is essential to follow standard laboratory safety protocols, including the use of personal protective equipment (PPE) such as gloves, lab coat, and safety glasses. The compound should be stored in a cool, well-ventilated area, away from direct sunlight and sources of ignition. Proper storage conditions are crucial to maintain the compound's stability and purity