From a chemist's standpoint, Methyl Heptine Carbonate (CAS 111-12-6), chemically known as Methyl 2-Octynoate, is a fascinating ester with an unsaturated carbon chain. Its structure features a terminal alkyne group, which imparts distinct chemical properties and reactivity, making it a compound of interest in organic synthesis and a vital component in specialized industries. As a manufacturer and supplier, we provide this chemical with detailed specifications for scientists and engineers.

The molecular formula C9H14O2 and a molecular weight of 154.21 g/mol define Methyl Heptine Carbonate. Its key functional group, the alkyne, is a triple bond between carbon atoms, known for its linear geometry and high electron density, which influences its reactivity in addition reactions and other transformations. This specific structure is what gives rise to its characteristic green, floral, and fruity aroma, making it highly valuable in the fragrance and flavor sectors. Its boiling point of approximately 217°C and its appearance as a clear, colorless liquid are typical physical properties for such esters.

The synthesis of Methyl Heptine Carbonate typically involves esterification reactions. Starting materials such as 2-octynoic acid can be reacted with methanol in the presence of an acid catalyst to yield the desired ester. While the core synthesis is a common organic chemistry process, achieving high purity (e.g., 99%+) requires meticulous control over reaction conditions, purification techniques (like distillation), and rigorous quality control testing. Manufacturers focus on these aspects to ensure that the final product meets the stringent demands of the fragrance and flavor industries, where even minor impurities can significantly alter the sensory profile.

For professionals in research and development, understanding the chemical properties of Methyl Heptine Carbonate can unlock further applications. Its alkyne functionality can participate in click chemistry reactions or serve as a building block for more complex organic molecules. While its primary industrial use is sensory, its chemical nature suggests potential roles in niche areas of materials science or specialized chemical synthesis. As a supplier, we can provide detailed technical specifications, including GC analysis data, to support research endeavors and ensure the compound's suitability for specific chemical applications.

When sourcing Methyl Heptine Carbonate for laboratory use or industrial processes, it is crucial to buy from reputable suppliers who provide comprehensive documentation. We ensure that our product is accompanied by relevant safety data sheets (SDS), certificates of analysis (COA), and information on handling and storage. This commitment to transparency and quality makes us a trusted source for chemists and manufacturers looking for reliable Methyl Heptine Carbonate. We encourage inquiries from R&D departments and procurement managers seeking high-purity chemicals for their innovative projects.