Research and Development (R&D) is the engine of innovation across many scientific disciplines, and a deep understanding of chemical properties is its bedrock. N-Hydroxynicotinamidine, commonly known as 3-Pyridinecarboximidamide, N-hydroxy (CAS 1594-58-7), is a compound whose specific chemical properties lend themselves to a variety of research applications. From its molecular weight of 137.14 g/mol and formula C6H7N3O to its reactivity, understanding these attributes is crucial for researchers aiming to synthesize new compounds or explore novel applications.

The chemical properties of N-Hydroxynicotinamidine are largely dictated by its amidoxime functional group and the presence of the pyridine ring. This structural arrangement allows it to participate in various reactions, such as cyclization or condensation, which are fundamental to organic synthesis. Researchers investigating its pyridine-3-amidoxime application in cosmetics or as a diagnostic reagent are often focused on these reactive sites. The compound's stability, solubility, and reactivity profile are key considerations when planning experimental procedures. Furthermore, ensuring high chemical compound purity analysis is essential for obtaining reproducible research results.

In the field of pharmaceutical material development, the investigation into compounds like 3-Pyridinecarboximidamide, N-hydroxy is ongoing. Its potential as an intermediate or a precursor for biologically active molecules makes it a subject of interest for medicinal chemists. Understanding its chemical properties helps researchers predict its behavior in biological systems and design targeted therapeutic agents. The demand for high-purity 3-Pyridinecarboximidamide, N-hydroxy is driven by the need for reliable data and consistent experimental outcomes in these rigorous research endeavors.

Moreover, the broad utility of this compound as a fine chemical intermediate means that its chemical properties are being explored in various contexts. Whether it's its role in fine chemical intermediate manufacturing or its potential as a component in advanced materials, a thorough grasp of its attributes is key. The information available regarding its boiling point (350 °C) and flash point (165.5 °C) provides vital safety and handling guidelines for laboratory settings. Ultimately, detailed knowledge of the chemical properties of N-Hydroxynicotinamidine empowers researchers to innovate and contribute to scientific advancements.