For scientists and researchers engaged in organic synthesis, the availability of reliable and well-characterized building blocks is fundamental to the success of their endeavors. 4-Nitroaniline Hydrochloride (CAS: 15873-51-5) stands as a versatile and important compound, frequently utilized for its unique reactivity and its role as an intermediate in creating more complex molecular structures. This article explores the chemical significance of 4-Nitroaniline Hydrochloride for research purposes and highlights how to procure this essential reagent effectively.

Chemical Properties and Reactivity

4-Nitroaniline Hydrochloride is a derivative of aniline, distinguished by a nitro group (-NO₂) substituted at the para position relative to the amino group, and presented as its hydrochloride salt. This structure imbues it with dual functionality: the electron-withdrawing nitro group influences the reactivity of the aromatic ring, while the amino group offers a site for further derivatization. As a hydrochloride salt, it generally exhibits better solubility in polar solvents compared to its free base form, making it more amenable to various reaction conditions. Its chemical formula is C6H6ClN2O2, with a molecular weight of approximately 174.58 g/mol. The inherent reactivity makes it a valuable starting material for electrophilic aromatic substitution reactions and other transformations crucial in chemical research.

Applications in Advanced Synthesis

The primary utility of 4-Nitroaniline Hydrochloride in research lies in its function as an intermediate. It is indispensable for synthesizing a wide array of compounds, including:

  • Dyes and Pigments: The chromophoric properties associated with nitroaniline derivatives make them key components in the creation of various colorants.
  • Pharmaceuticals: It serves as a crucial building block in the synthesis pathways of numerous Active Pharmaceutical Ingredients (APIs), contributing to the development of new therapeutics. Researchers looking to buy this chemical for drug discovery will find its structure particularly useful.
  • Agrochemicals: Certain derivatives find applications in the agricultural sector, contributing to the development of crop protection agents.
  • Specialty Organic Compounds: Its structure allows for diverse modifications, leading to the creation of novel materials with specific electronic or physical properties.

When planning your research projects, consider the advantages of using a high-purity source. For instance, securing a reliable supply of 4-Nitroaniline Hydrochloride from a reputable manufacturer ensures that experimental results are reproducible and accurate. Researchers often ask about the price of this compound, and we emphasize that investing in quality from a trusted supplier in China can save significant time and resources in the long run.

Sourcing for Research: What to Look For

For researchers, sourcing 4-Nitroaniline Hydrochloride involves looking beyond just the CAS number. Key considerations include the stated purity (e.g., 97% min), the form in which it is supplied (e.g., powder or crystal), and recommended storage conditions (e.g., keep in a dark place, sealed and dry at room temperature). Reputable suppliers will provide detailed specifications and safety data sheets. If you are looking to buy this chemical for laboratory use, partnering with a supplier that offers smaller pack sizes and reliable delivery is beneficial. We pride ourselves on being a dependable manufacturer and supplier, providing the quality materials that drive scientific discovery.

Conclusion: Empowering Research with Quality Intermediates

4-Nitroaniline Hydrochloride is more than just a chemical compound; it's a gateway to new discoveries in organic synthesis. Its well-defined reactivity and versatile application spectrum make it a staple in research laboratories worldwide. By understanding its properties and choosing reliable sources, researchers can effectively leverage this intermediate to push the boundaries of chemical innovation. We are dedicated to supporting the scientific community by providing high-quality 4-Nitroaniline Hydrochloride and other essential chemical building blocks. Contact us to discuss your research needs and inquire about purchasing options.