Understanding the fundamental chemical identity of a compound is the first step in appreciating its role and potential applications. Calcium Phosphorylcholine Chloride, bearing the CAS number 4826-71-5, is a compound with a specific and important chemical structure that lends itself to its primary use as a pharmaceutical intermediate.

The chemical identity of Calcium Phosphorylcholine Chloride is precisely defined by its molecular formula: C5H13NO4P.Ca.Cl. This formula indicates the presence of carbon, hydrogen, nitrogen, oxygen, phosphorus, calcium, and chlorine atoms in specific ratios. The molecular weight, approximately 257.67 grams per mole, is another key identifier, influencing its behavior in chemical reactions and solutions.

Structurally, Calcium Phosphorylcholine Chloride is an organic salt. It features a phosphorylcholine moiety, which is a zwitterionic molecule containing a positively charged quaternary ammonium group and a negatively charged phosphate group, linked by an ethylene bridge. This phosphorylcholine group is then complexed with calcium ions (Ca2+) and chloride ions (Cl-). The precise arrangement of these components dictates its chemical reactivity and physical properties, such as its appearance as a white to off-white powder.

The significance of this chemical structure is profound, particularly in its role as a pharmaceutical intermediate. The phosphorylcholine head group is a common component of phospholipids, which are essential building blocks of cell membranes. This similarity allows Calcium Phosphorylcholine Chloride to be utilized in various synthetic pathways to create molecules that mimic or interact with biological systems, a common requirement in drug development.

For professionals in the chemical and pharmaceutical industries, having a clear grasp of the chemical identity of compounds like Calcium Phosphorylcholine Chloride is essential for successful R&D and manufacturing. NINGBO INNO PHARMCHEM CO.,LTD is committed to providing chemicals with well-defined and consistently produced identities, ensuring that our clients can rely on the fundamental properties of the materials they use.