The efficiency and success of chemical manufacturing hinge on the selection of appropriate raw materials and intermediates. 6,6-Dimethylhept-2-en-4-yn-1-ol, identified by its CAS number 114311-70-5, is a compound that offers significant versatility and value to manufacturers. This article highlights why this particular chemical intermediate is an attractive option for chemical production and research.

The inherent chemical structure of 6,6-Dimethylhept-2-en-4-yn-1-ol, with its distinct alkyne, alkene, and hydroxyl functional groups, provides manufacturers with multiple avenues for downstream processing. This trifunctionality allows for selective reactions, enabling the creation of diverse molecular architectures. Whether the goal is to synthesize complex pharmaceutical ingredients, novel aroma compounds, or specialized materials, this intermediate serves as a robust foundation. Procurement managers often seek out such intermediates when looking to buy chemicals that offer a broad reaction scope.

Manufacturers value intermediates that are stable and readily available. 6,6-Dimethylhept-2-en-4-yn-1-ol is noted for its stability under standard conditions, making it easier to store and handle within manufacturing facilities. Furthermore, its typical purity of 95%+ ensures that it can be directly incorporated into many synthesis pathways with minimal purification steps, thereby improving process efficiency and reducing overall production costs. Suppliers often provide detailed product specifications, including CAS: 114311-70-5, molecular formula (C9H14O), and density (0.912 g/cm3), which are critical for process engineers.

The global chemical market often sees competitive pricing from manufacturers in regions like China. For chemical manufacturers looking to optimize their supply chain and cost of goods, identifying reliable suppliers for key intermediates like 6,6-Dimethylhept-2-en-4-yn-1-ol is essential. Requesting samples and obtaining quotes from established manufacturers can provide valuable insights into pricing structures and supply capabilities. This due diligence is a standard practice for R&D scientists and purchasing departments.

The utility of this compound extends to various sectors. In the pharmaceutical industry, it can be a precursor for certain drug molecules. In the fragrance sector, its structural elements might contribute to unique scent profiles. For research purposes, it serves as a critical building block for exploring new chemical reactions and developing innovative compounds. The ability to buy this intermediate in various quantities, from grams for research to kilograms for pilot-scale production, further enhances its appeal.

In conclusion, the versatility, stability, and availability of 6,6-Dimethylhept-2-en-4-yn-1-ol (CAS 114311-70-5) make it a highly valuable intermediate for chemical manufacturing. By partnering with dependable manufacturers, businesses can leverage this compound to drive innovation and efficiency in their production processes.