Amines are foundational building blocks in organic chemistry, and tertiary amines like 1-(Dimethylamino)tetradecane (CAS 112-75-4) play a particularly significant role in modern chemical synthesis. As a key supplier of specialty chemicals, we recognize the importance of this compound for industries requiring advanced chemical intermediates. Understanding the properties and synthetic utility of such amines is crucial for R&D scientists and procurement specialists alike.

1-(Dimethylamino)tetradecane, also known by trade names or synonyms such as N,N-Dimethyltetradecylamine or Dimethyl Myristylamine, is a tertiary amine characterized by its colorless liquid form and high purity (typically 98%min). Its molecular structure makes it an ideal starting material for creating more complex molecules. A primary application is its use as an intermediate in the synthesis of various surfactants, including cationic, amphoteric, and betaine types. These surfactants are indispensable in detergents, personal care products, and industrial formulations due to their emulsifying, foaming, and cleaning properties.

The utility of 1-(Dimethylamino)tetradecane extends beyond just surfactant manufacturing. It serves as a precursor for producing amine oxides, which are often used as co-surfactants and foam stabilizers. Additionally, it finds applications as a component in preservatives, fuel additives, and as a chemical for rare metal extraction. For those looking to buy this chemical, understanding these diverse roles highlights its value in a broad range of synthetic pathways. Manufacturers in China are well-positioned to provide this intermediate at competitive prices, supporting the global demand for high-quality chemical raw materials.

When engaging with suppliers to purchase 1-(Dimethylamino)tetradecane, it is essential to inquire about product specifications, packaging options (such as 160kg/drum), and technical support. For chemists involved in synthesis, having a reliable source for high-purity intermediates like this amine ensures the success and reproducibility of their research and manufacturing processes. Exploring direct purchasing options from manufacturers can lead to better cost efficiencies and a more robust supply chain, empowering innovation in chemical product development.