HC Red 13, chemically known as 2,2'-[(4-Amino-3-nitrophenyl)imino]bisethanol hydrochloride and identified by CAS number 94158-13-1, is a compound of interest in several scientific and industrial sectors. Its designation as a pharmaceutical intermediate hints at its primary role, but its chemical properties suggest a broader utility. This article explores these facets, highlighting what makes this compound valuable.

The core value of 2,2'-[(4-Amino-3-nitrophenyl)imino]bisethanol hydrochloride lies in its molecular structure and the reactivity it imparts. As a pharmaceutical intermediate, it is synthesized through specific chemical processes that ensure high purity, typically 99%min. This level of purity is non-negotiable when the compound is destined for use in drug development. The synthesis of such compounds often involves precise control over reaction conditions to achieve the desired molecular arrangement and purity, a hallmark of advanced chemical manufacturing.

Beyond its direct role in drug synthesis, HC Red 13 has demonstrated potential as a dye or indicator. This dual functionality broadens its appeal, allowing it to be used in analytical chemistry for specific testing procedures or as a colorant in certain formulations. The ability to be sourced from China, a hub for chemical production, makes it accessible for various research and development projects. Understanding the chemical properties of HC Red 13 is crucial for any scientist or engineer looking to utilize it effectively.

The demand for such specialized chemicals is met by manufacturers who dedicate themselves to producing them at scale. When considering the buy HC Red 13, clients often look for suppliers who can provide detailed specifications, safety data sheets (SDS), and technical data sheets (TDS). The process of obtaining these compounds, whether for large-scale industrial production or small-scale laboratory research, requires a reliable supply chain. Identifying reputable manufacturers and suppliers is a key step in this procurement process.

The compound's journey from synthesis to application involves careful handling and storage. Its nature as a potentially hazardous chemical necessitates adherence to safety protocols, including the use of appropriate personal protective equipment. The widespread use of such intermediates in the pharmaceutical industry highlights the continuous advancements in chemistry and its impact on improving human health and various technological applications. The ongoing research and development involving compounds like HC Red 13 will undoubtedly continue to shape future innovations.