Diisopropyl phosphonate, scientifically known as Phosphonic acid, bis(1-methylethyl) ester, and identified by CAS number 1809-20-7, is a compound of significant interest in the chemical industry, particularly within the realm of pharmaceutical intermediates. Understanding its fundamental diisopropyl phosphonate properties is the first step towards harnessing its full potential in various synthetic processes.

Characterized by its appearance as a clear, colorless liquid, diisopropyl phosphonate exhibits good solubility in water, a property that greatly facilitates its use in aqueous reaction systems and simplifies purification procedures. Its molecular formula, C6H15O3P, and molecular weight of 166.18, are standard identifiers for chemists. The compound boasts a high purity level of ≥99%, making it a reliable choice for demanding applications where impurity levels must be strictly controlled. This high purity is a testament to the quality associated with suppliers like NINGBO INNO PHARMCHEM CO.,LTD.

The versatility of diisopropyl phosphonate is evident in its wide range of diisopropyl phosphonate applications. Primarily, it serves as a critical pharmaceutical intermediate 1809-20-7, playing a vital role in the synthesis of various APIs. Its structure allows for the facile introduction of phosphonate groups into organic molecules, a common strategy in medicinal chemistry to enhance bioavailability or modify biological activity. Beyond pharmaceuticals, it finds use in other areas of fine chemical manufacturing and as a reagent in organic synthesis research. The importance of efficient diisopropyl phosphonate synthesis ensures its continued availability for these diverse needs.

For businesses seeking reliable chemical supply, understanding the specifications and applications of compounds like diisopropyl phosphonate is essential. NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing chemical solutions that meet rigorous industry standards. By focusing on quality and consistent production, we support the ongoing innovation in fields that rely on compounds such as diisopropyl phosphonate for their groundbreaking work. Exploring the synthesis and properties of this key chemical intermediate offers valuable insights for anyone involved in advanced chemical manufacturing.