While 2,2'-[(4-Amino-3-nitrophenyl)imino]bisethanol hydrochloride (CAS 94158-13-1) is primarily recognized as a vital pharmaceutical intermediate, its chemical structure and properties suggest a broader range of applications in scientific research and development. This compound, often referred to as HC Red 13, serves as a fascinating case study in the versatility of specialized chemicals.

The foundation of its utility lies in its meticulous chemical synthesis. Manufacturers focus on achieving high purity, often 99%min, which is essential for its use in demanding fields like pharmaceuticals. This purity ensures predictable outcomes in complex reactions, making it a reliable component for researchers aiming to create novel molecules. The ability to reliably source this compound from suppliers globally, including those in China, facilitates its widespread use in academic and industrial research laboratories.

Beyond its role in drug development, the chemical properties of HC Red 13 indicate potential applications as a dye or an indicator. Its potential to impart color could be valuable in analytical chemistry, where specific color changes signify the presence or concentration of certain substances. This dual applicability means that when researchers decide to buy 2,2'-[(4-Amino-3-nitrophenyl)imino]bisethanol hydrochloride, they might be utilizing it for a range of purposes, from synthesizing new drug candidates to developing novel diagnostic tools or coloring agents.

The compound's molecular formula, C10H16ClN3O4, and its appearance as a yellow crystalline powder are key identifiers for procurement and research. When sourcing, emphasis is placed on obtaining detailed technical specifications and ensuring compliance with safety regulations. The information provided by pharmaceutical intermediate suppliers is crucial for researchers to understand the best practices for handling and utilizing the compound effectively.

In essence, 2,2'-[(4-Amino-3-nitrophenyl)imino]bisethanol hydrochloride exemplifies how a single chemical compound can contribute to multiple scientific disciplines. Its journey from synthesis to application highlights the intricate interplay between chemical manufacturing, research innovation, and safety protocols. As research continues, it is plausible that even more applications for this versatile intermediate will be uncovered, further cementing its importance in the scientific community.