NINGBO INNO PHARMCHEM CO.,LTD. is proud to highlight the indispensable role of Bis-(4-nitrophenyl)-sulfide, identified by CAS number 1223-31-0, within the field of modern organic synthesis. This fine chemical intermediate is more than just a compound; it's a foundational building block that enables a vast array of chemical transformations, driving innovation across numerous sectors.

The intrinsic properties of Bis-(4-nitrophenyl)-sulfide, such as its characteristic light yellow to brown crystalline appearance and its solubility in common organic solvents like acetone, make it a preferred choice for chemists. Its melting point of 160°C further contributes to its manageable handling and application in controlled reaction environments. As a key organic synthesis intermediate, it is instrumental in the creation of complex molecular structures, which are often precursors to pharmaceuticals, advanced materials, and specialized chemicals.

The efficient Bis-(4-nitrophenyl)-sulfide synthesis is a critical aspect of its industrial utility. Manufacturers focus on precise synthesis routes to ensure high purity and consistent yield, understanding that the quality of the intermediate directly impacts the success of subsequent reactions. Whether it's for laboratory research or large-scale industrial production, the reliability of this fine chemical intermediate is paramount.

Beyond its role in synthesis, Bis-(4-nitrophenyl)-sulfide is a subject of ongoing chemical research. Scientists are continually exploring its reactivity and potential applications, particularly in areas like material science where its unique electron-donating properties might be leveraged. Its use as a precursor for pharmaceutical intermediates underscores its importance in developing new therapeutic agents.

For companies seeking a dependable supply of high-quality chemical raw materials, understanding the specifications and applications of compounds like Bis-(4-nitrophenyl)-sulfide is essential. NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing reliable access to such critical components, supporting the advancements driven by intricate organic synthesis.