1,6-Cleve's Acid | 119-79-9

1,6-Cleve's Acid | 119-79-9 MSDS (Material Safety Data Sheet) or SDS, COA and Specs

1,6-Cleve's Acid | 119-79-9

1,6-Cleve’s Acid (CAS 119-79-9) is a vital dye intermediate used in azo dyes, pigments, and specialty chemical formulations. As a trusted 1,6-Cleve’s Acid Manufacturer in India, Supplier, and Exporter, Apurva Chemicals delivers high-quality products for textile, printing, leather, and industrial applications.

CAS No.119-79-9
FormulaC10H9NO3S
EINECS204-351-2
Molecular Weight223.25 g/mol
AppearanceGray Red Powder
ApplicationIntermediate for dyestuffs
Density1.50 g/cm3
Purity≥94%–97%
Synonym
  • 1-Aminonaphthalene-6-sulfonic Acid
Description:


What is 1,6-Cleve's Acid?

1,6-Cleve's Acid is a chemical intermediate identified by CAS 119-79-9 that is widely used in the production of dyes, pigments, and specialty chemicals. It serves as a key raw material in industrial synthesis processes where purity, reaction consistency, and manufacturing reliability are essential. The product plays a critical role in developing colorants used across textile, printing, and specialty chemical industries.


Why This Product Matters

The global dye and chemical manufacturing industries require intermediates that deliver predictable performance, consistent quality, and efficient processing capabilities.

Industry Challenges

Manufacturers often face challenges such as:

  • Variability in raw material quality.

  • Inconsistent reaction performance.

  • Production inefficiencies.

  • Color inconsistency in finished products.

  • Increasing quality and compliance requirements.

Problems Solved

1,6-Cleve's Acid helps manufacturers improve synthesis reliability by providing a stable and dependable intermediate for complex chemical reactions.

Business Benefits

  • Improved production consistency.

  • Better quality control.

  • Enhanced process efficiency.

  • Reduced manufacturing risks.

  • Stronger product performance.

Operational Advantages

  • Supports scalable manufacturing.

  • Facilitates process optimization.

  • Compatible with diverse chemical formulations.

  • Enables efficient product development.


Key Features and Benefits

High Purity Chemical Composition

1,6-Cleve's Acid is produced using controlled manufacturing processes to ensure consistent quality.

Why It Matters: Purity directly influences reaction efficiency and end-product performance.

Business Benefit: Reduced process variation and improved manufacturing outcomes.

Essential Intermediate for Dye Production

The product serves as a critical precursor in the manufacture of dyes and colorants.

Why It Matters: Reliable intermediates contribute to consistent dye quality.

Business Benefit: Better product performance and improved customer satisfaction.

Excellent Reaction Consistency

1,6-Cleve's Acid supports predictable behavior during chemical synthesis.

Why It Matters: Controlled reactions improve manufacturing efficiency.

Business Benefit: Reduced production disruptions and enhanced process reliability.

Suitable for Specialty Chemical Manufacturing

The product can be used in advanced formulations requiring aromatic sulfonic acid intermediates.

Why It Matters: Specialty products demand high-quality raw materials.

Business Benefit: Supports innovation and product diversification.

Reliable Batch-to-Batch Quality

Quality-focused production helps ensure consistency across manufacturing lots.

Why It Matters: Uniformity is critical for industrial production environments.

Business Benefit: Improved process control and reduced quality-related concerns.

Broad Industrial Compatibility

The product integrates effectively into multiple chemical manufacturing applications.

Why It Matters: Versatility increases production flexibility.

Business Benefit: Greater operational efficiency and application diversity.

Supports Sustainable Production Practices

Consistent intermediates help reduce waste and improve resource utilization.

Why It Matters: Sustainable manufacturing continues to be a key industry objective.

Business Benefit: Improved operational efficiency and responsible production management.

Global Supply Chain Relevance

1,6-Cleve's Acid is widely recognized and utilized throughout international chemical markets.

Why It Matters: Reliable sourcing is essential for uninterrupted production.

Business Benefit: Better procurement planning and inventory management.


Applications of 1,6-Cleve's Acid

Industrial Applications

Dye Manufacturing

One of the primary applications of 1,6-Cleve's Acid is in the synthesis of azo dyes and specialty colorants.

Why It Is Used:

Its chemical structure makes it a valuable intermediate for producing complex dye molecules.

Expected Benefits:

  • Consistent dye quality.

  • Reliable manufacturing performance.

  • Enhanced color development.

Common Use Cases:

  • Textile dyes.

  • Reactive dyes.

  • Industrial colorants.

Pigment Production

Pigment manufacturers use 1,6-Cleve's Acid in the production of selected color systems.

Expected Benefits:

  • Improved pigment consistency.

  • Better process control.

  • Reliable product performance.

Commercial Applications

Printing Ink Manufacturing

The product contributes to the development of colorants used in printing applications.

Expected Benefits:

  • Stable color performance.

  • Consistent formulation quality.

  • Reliable manufacturing outcomes.

Leather Dye Production

Specialty dye manufacturers utilize the product for colorant systems used in leather processing.

Expected Benefits:

  • Improved dye quality.

  • Better process efficiency.

  • Consistent coloration.

Infrastructure Applications

Industrial Coatings and Materials

Colorants produced using chemical intermediates such as 1,6-Cleve's Acid may be utilized in industrial coating technologies.

Expected Benefits:

  • Reliable manufacturing consistency.

  • Improved formulation performance.

  • Enhanced production quality.

Specialized Applications

Research and Development

Chemical laboratories use 1,6-Cleve's Acid during formulation studies and process development activities.

Expected Benefits:

  • Accurate experimental results.

  • Improved innovation capabilities.

  • Better process optimization.

Specialty Chemical Synthesis

The product supports advanced synthesis pathways for specialty chemical products.

Expected Benefits:

  • Controlled reaction performance.

  • Enhanced product quality.

  • Reliable manufacturing outcomes.


Industries Served

Chemical Manufacturing

Widely used in the production of specialty chemicals and industrial intermediates.

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