Unveiling 4'-Anilinotoluene-4-sulphonanilide (CAS 100-93-6)
Your essential guide to a key component in dye and pigment manufacturing.
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4'-Anilinotoluene-4-sulphonanilide
This compound, identified by CAS 100-93-6, is a vital ingredient in the creation of vibrant dyes and high-quality pigments. Its reliable purity of 98.0% ensures consistent results in synthesis processes, making it a preferred choice for manufacturers.
- Explore the specific properties of the 4'-Anilinotoluene-4-sulphonanilide synthesis process to optimize your production.
- Discover the critical role of CAS 100-93-6 properties in achieving desired outcomes for dye precursors.
- Learn about the benefits of sourcing a white crystalline solid dye precursor with a high assay of 98%.
- Find out where to buy 4'-Anilinotoluene-4-sulphonanilide for your industrial applications.
Key Advantages
Guaranteed Purity
With an assay of at least 98.0%, our 4'-Anilinotoluene-4-sulphonanilide ensures predictable and efficient chemical reactions, critical for successful dye and pigment production.
Versatile Application
This compound is a cornerstone for the 4'-Anilinotoluene-4-sulphonanilide synthesis of a wide array of dyes and pigments, offering broad utility across the chemical industry.
Reliable Supply
As a trusted 4'-Anilinotoluene-4-sulphonanilide supplier, we ensure consistent availability to meet your production demands, supporting uninterrupted manufacturing cycles.
Key Applications
Dye Manufacturing
This compound is essential for the 4'-Anilinotoluene-4-sulphonanilide synthesis of various dyes, contributing to vibrant colors in textiles and other materials.
Pigment Production
As a critical pigment precursor, it enables the creation of stable and visually appealing pigments used in coatings, plastics, and printing inks.
Chemical Synthesis
Beyond dyes and pigments, its structure makes it a valuable intermediate in the broader field of organic chemical synthesis, supporting diverse research and industrial needs.
Material Science
The unique properties of this white crystalline solid may lend themselves to novel applications in material science, driven by its specific molecular structure and CAS 100-93-6 properties.