Discover the versatility of (R)-1-Chloroheptan-2-ol, a premium organic building block with a molecular weight of 150.65g/mol. This high-purity compound, with the CAS number not available, offers a unique blend of reactivity and stability, making it an invaluable tool for your chemical endeavors. Carefully crafted to ensure exceptional quality, this clear liquid form is more easily handled than its epoxide equivalent, providing a reliable solution for your research and synthesis needs. Unlock the potential of this exceptional organic compound and elevate your projects to new heights.
Unlock the versatile potential of (R)-1-Chloroheptan-2-ol, a unique and highly valuable chemical compound that holds the key to unlocking new frontiers in scientific research and development. This meticulously crafted organic building block, identified by its CAS number (Not Available), boasts a remarkable combination of properties that make it an indispensable tool for chemists, pharmaceutical researchers, and material scientists alike.
At the heart of (R)-1-Chloroheptan-2-ol lies its distinct molecular structure, featuring a chloro-substituted heptanol backbone. This strategic arrangement of atoms endows the compound with a unique reactivity profile, allowing it to serve as a versatile precursor in a wide range of chemical transformations and synthetic pathways. Whether you're exploring the development of novel pharmaceuticals, designing advanced agrochemicals, or engineering cutting-edge materials, this remarkable compound can be the catalyst that propels your research to new heights.
With a molecular weight of 150.65g/mol, (R)-1-Chloroheptan-2-ol presents itself as a clear, colorless liquid, easily handled and integrated into your laboratory workflows. Its MDL number, MFCD07366988, and HS code, 29061900, provide a clear identification and classification for seamless integration into your research and development projects.
In the realm of pharmaceutical research, (R)-1-Chloroheptan-2-ol shines as a valuable building block for the synthesis of innovative drug candidates. Its chloro-substituted structure and inherent reactivity make it a crucial starting material or intermediate in the development of a wide range of therapeutic compounds. From neurological disorders to metabolic diseases, this versatile compound can unlock new pathways for the creation of life-changing medications that improve patient outcomes.
Leveraging the unique properties of (R)-1-Chloroheptan-2-ol, researchers can explore novel synthetic routes, design targeted molecular structures, and enhance the pharmacological profiles of their drug candidates. Its adaptability allows for the incorporation of additional functional groups, leading to the development of more potent, selective, and efficacious pharmaceutical products.
In the dynamic field of agrochemicals, (R)-1-Chloroheptan-2-ol finds its niche as a crucial building block for the synthesis of advanced crop protection agents. Its distinct chemical structure and reactivity enable the formulation of highly effective and selective pesticides, herbicides, and fungicides that safeguard crops while minimizing environmental impact.
By incorporating (R)-1-Chloroheptan-2-ol into their research and development efforts, agrochemical scientists can create innovative solutions that address the evolving challenges faced by modern agriculture. From enhancing crop yields to combating resistant pests and diseases, this versatile compound can be the key to unlocking the next generation of sustainable and high-performing agrochemical products.
Beyond the realms of pharmaceuticals and agrochemicals, (R)-1-Chloroheptan-2-ol also shines as a valuable asset in material science research. Its unique chemical properties and reactivity make it an ideal candidate for the synthesis of novel materials with tailored characteristics, such as improved mechanical strength, thermal stability, or optical performance.
By incorporating (R)-1-Chloroheptan-2-ol into their research, material scientists can explore the development of advanced polymers, coatings, and other functional materials that push the boundaries of what's possible. These innovative materials can find applications in a wide range of industries, from aerospace and electronics to consumer goods and beyond, unlocking new possibilities for enhanced product performance and durability.
To ensure the optimal performance and longevity of (R)-1-Chloroheptan-2-ol, it is essential to handle and store the compound with care. While the specific hazard information is yet to be confirmed (TBC), it is recommended to follow standard laboratory safety protocols when working with this chemical. This includes wearing appropriate personal protective equipment, such as gloves, goggles, and