Guanidine nitrate derivatives represent a versatile class of organic compounds that find crucial applications across several scientific and industrial sectors. Among these, (2-Methyl-5-nitrophenyl)guanidine nitrate (CAS: 152460-08-7) is particularly noteworthy, primarily serving as a critical intermediate in the synthesis of imatinib, a vital medication used in targeted cancer therapies.

The primary utility of (2-Methyl-5-nitrophenyl)guanidine nitrate lies within the pharmaceutical industry. Its specific structure, featuring a guanidine group attached to a substituted nitrophenyl ring, makes it an ideal precursor for constructing the complex molecular architecture of imatinib. The meticulous control required for its 2-Methyl-5-nitrophenylguanidine nitrate synthesis ensures high purity and yields, which are essential for producing pharmaceutical-grade APIs. This focus on pharmaceutical intermediate chemistry highlights the importance of reliable and high-quality chemical building blocks.

Beyond its established role in cancer drug development, the broader exploration of guanidine nitrate applications reveals its potential in other areas. The inherent basicity and hydrogen-bonding capabilities of the guanidine moiety allow these compounds to interact with various biological targets, suggesting potential utility in other therapeutic fields or as components in agrochemicals. Researchers are continuously investigating the biological activity of guanidine derivatives, seeking new applications in areas like antimicrobial treatments or enzyme inhibition.

Furthermore, the unique electronic and structural properties conferred by the nitro group in compounds like (2-Methyl-5-nitrophenyl)guanidine nitrate open up possibilities in material science. Nitroaromatic compounds, in general, are known for their reactivity and can be precursors to energetic materials or components in specialized polymers and dyes. The study of nitroaromatic guanidine applications may therefore extend into novel material development and industrial chemical processes.

For organizations involved in chemical synthesis and pharmaceutical manufacturing, understanding the properties and reliable sourcing of intermediates like (2-Methyl-5-nitrophenyl)guanidine nitrate is paramount. When seeking to buy (2-Methyl-5-nitrophenyl)guanidine nitrate, emphasis must be placed on suppliers who guarantee purity, batch consistency, and adherence to industry standards. The CAS number, 152460-08-7, serves as a crucial identifier for this important compound.

In conclusion, while its role in imatinib synthesis is well-established, the chemical versatility of guanidine nitrate derivatives suggests a promising future for these compounds in advancing drug discovery, agricultural science, and material innovation.