Sodium 2,3-Dihydroxynaphthalene-6-Sulfonate: Essential for Dye and Imaging
Discover the versatile applications of this key chemical intermediate in modern industries.
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Sodium 2,3-dihydroxynaphthalene-6-sulfonate
This compound is a crucial chemical intermediate, recognized for its role as a dye intermediate and its effectiveness as a coupling agent for diazo photosensitive paper. Its consistent quality and availability make it a reliable component in manufacturing processes.
- Explore the applications of sodium 2,3-dihydroxynaphthalene-6-sulfonate as a dye intermediate, enabling vibrant and stable colorations.
- Understand its function as a diazo photosensitive paper coupling agent, vital for imaging technologies.
- Learn about the chemical synthesis intermediates derived from this compound, critical for advanced material development.
- Discover the properties of CAS 135-53-5 chemical, a reliable source for industrial chemical needs.
Product Advantages
High Purity
Achieve consistent results with this chemical, often supplied with a purity of 98-99% for demanding applications.
Versatile Application
Leverage the dual utility of this compound as both a dye intermediate and a coupling agent, simplifying your material sourcing.
Reliable Supply
Ensure your production line runs smoothly with a stable supply of this essential chemical compound, sourced from reputable manufacturers.
Key Applications
Dye Manufacturing
As a dye intermediate, this compound is essential for creating a wide spectrum of colors and ensuring color fastness in textiles and other materials.
Photosensitive Paper
Its role as a coupling agent is vital in the production of diazo photosensitive paper, a technology used in various printing and reproduction processes.
Chemical Synthesis
This compound serves as a valuable building block in broader chemical synthesis, contributing to the development of new materials and compounds.
Organic Chemistry Research
Researchers in organic chemistry find this compound useful for exploring naphthalene derivative applications and novel synthesis pathways.