Dimethylolurea, identified by its CAS number 140-95-4, is a compound that holds significant importance as a chemical intermediate. Its molecular structure, derived from the reaction of urea with formaldehyde, provides reactive hydroxymethyl groups that are foundational for a wide array of chemical synthesis processes. Understanding the properties and applications of Dimethylolurea is key for chemists and manufacturers involved in developing advanced materials and products.

The chemical synthesis of Dimethylolurea is typically achieved through the controlled addition of two moles of formaldehyde to one mole of urea. This reaction is often carried out in an aqueous solution under specific temperature and pH conditions to optimize yield and purity. The resulting compound, often appearing as a white crystalline powder, is readily soluble in hot water, facilitating its use in various reaction mediums. Its chemical structure, N,N'-bis(hydroxymethyl)urea, highlights the presence of two hydroxymethyl (-CH2OH) groups attached to the nitrogen atoms of the urea molecule, which are the sites of its reactivity.

As a versatile building block, Dimethylolurea serves as a precursor for numerous other chemical compounds and polymers. Its ability to react with a range of other functional groups makes it invaluable in the production of resins, coatings, and other specialty chemicals. For instance, it is a key component in the formulation of amino resins, which are widely used in adhesives, laminates, and molding compounds due to their excellent mechanical properties, thermal stability, and chemical resistance.

NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supplying high-quality Dimethylolurea, ensuring that our clients have access to a reliable source for their chemical synthesis needs. Whether you are looking to buy Dimethylolurea for established industrial processes or for novel research and development, our product meets rigorous quality standards. The availability of this intermediate is crucial for sectors that rely on predictable and efficient chemical reactions.

The utility of Dimethylolurea extends beyond traditional resin production. Its reactive nature allows for its incorporation into advanced materials, including certain types of coatings and even as a component in photographic developers. Exploring the potential to buy Dimethylolurea opens doors to innovation in material science and chemical engineering, underscoring its enduring relevance in the chemical industry.