3,3'Dinitro Diphenyl Sulphone | 1228-53-1

3,3'Dinitro Diphenyl Sulphone | 1228-53-1 MSDS (Material Safety Data Sheet) or SDS, COA and Specs

3,3'Dinitro Diphenyl Sulphone | 1228-53-1

3,3'-Dinitro Diphenyl Sulphone (CAS 1228-53-1) is a key sulfone intermediate used in specialty chemicals, advanced polymers, dyes, pigments, and industrial formulations. As a trusted 3,3'-Dinitro Diphenyl Sulphone manufacturer in India, Apurva Chemicals supplies high-quality material for consistent performance, reliable production, and industrial efficiency.

CAS No.1228-53-1
FormulaC12H8N2O6S
Molecular Weight308
AppearanceOff white to white coloured fluppy powder
PackingIn 25 kgs net each HDPE bag with polylined inside
Description:


What is 3,3'-Dinitro Diphenyl Sulphone?

3,3'-Dinitro Diphenyl Sulphone is a specialty chemical intermediate identified by CAS 1228-53-1. It is commonly used in the synthesis of advanced polymers, specialty chemicals, dyes, pigments, and industrial formulations. Due to its stable aromatic sulfone structure, it serves as a critical building block in chemical manufacturing processes that require consistent quality and reliable performance.


Why This Product Matters

Modern chemical manufacturing depends on high-quality intermediates that support efficient production and product consistency.

Industry Challenges

Manufacturers frequently encounter:

  • Variability in raw material quality.

  • Complex synthesis requirements.

  • Production inefficiencies.

  • Quality control challenges.

  • Increasing demand for advanced materials.

Problems Solved

3,3'-Dinitro Diphenyl Sulphone helps manufacturers achieve consistent reaction performance and reliable synthesis outcomes.

Business Benefits

  • Improved manufacturing consistency.

  • Better product quality.

  • Reduced process variability.

  • Enhanced production efficiency.

  • Stronger quality assurance performance.

Operational Advantages

  • Supports large-scale manufacturing.

  • Enables advanced product development.

  • Improves process control.

  • Facilitates reliable industrial production.


Key Features and Benefits

High Chemical Purity

Manufactured under controlled conditions to ensure consistent product quality.

Why It Matters: Purity directly influences synthesis performance and final product quality.

Business Benefit: Reduced production variability and improved operational reliability.


Excellent Molecular Stability

The aromatic sulfone structure offers stability during manufacturing and handling.

Why It Matters: Stable intermediates support predictable production outcomes.

Business Benefit: Improved process efficiency and reduced quality concerns.


Essential Specialty Chemical Intermediate

The product serves as a valuable building block for advanced chemical synthesis.

Why It Matters: Reliable intermediates are critical for complex formulations.

Business Benefit: Consistent product development and manufacturing performance.


Supports Advanced Polymer Production

Used in chemical pathways associated with performance-oriented materials.

Why It Matters: Modern industries require high-performance material solutions.

Business Benefit: Expanded product innovation opportunities.


Reliable Batch-to-Batch Consistency

Quality-focused production helps maintain uniform characteristics across manufacturing lots.

Why It Matters: Consistency is essential for industrial-scale operations.

Business Benefit: Improved process control and customer confidence.


Broad Industrial Compatibility

Suitable for various chemical manufacturing applications.

Why It Matters: Versatility increases operational flexibility.

Business Benefit: Greater application potential and manufacturing adaptability.


Supports Sustainable Manufacturing

Consistent intermediates help optimize resource utilization and reduce process inefficiencies.

Why It Matters: Sustainability has become a priority across industrial sectors.

Business Benefit: Improved operational efficiency and responsible manufacturing practices.


Global Supply Chain Relevance

Widely recognized within specialty chemical markets worldwide.

Why It Matters: Reliable sourcing supports uninterrupted production schedules.

Business Benefit: Better inventory planning and procurement management.


Applications of 3,3'-Dinitro Diphenyl Sulphone

Industrial Applications

Specialty Chemical Manufacturing

3,3'-Dinitro Diphenyl Sulphone is extensively used as an intermediate in specialty chemical synthesis.

Why It Is Used:

Its chemical structure supports the development of advanced industrial compounds.

Expected Benefits:

  • Consistent synthesis performance.

  • Improved product quality.

  • Reliable manufacturing outcomes.

Common Use Cases:

  • Specialty intermediates.

  • Industrial chemical formulations.

  • Performance-oriented compounds.


Advanced Polymer Synthesis

The product is used in specific synthesis pathways associated with high-performance polymer systems.

Expected Benefits:

  • Improved formulation control.

  • Reliable production consistency.

  • Enhanced manufacturing efficiency.


Commercial Applications

Dye and Pigment Manufacturing

Manufacturers use this intermediate in the development of specialty dyes and pigment-related compounds.

Expected Benefits:

  • Consistent product quality.

  • Reliable synthesis performance.

  • Improved production outcomes.


Industrial Formulations

The compound supports commercial chemical formulations requiring aromatic sulfone intermediates.

Expected Benefits:

  • Greater formulation flexibility.

  • Stable manufacturing performance.

  • Improved product reliability.


Infrastructure Applications

Industrial Material Development

Certain advanced materials and specialty compounds utilize intermediates such as 3,3'-Dinitro Diphenyl Sulphone during production.

Expected Benefits:

  • Improved manufacturing consistency.

  • Reliable quality standards.

  • Enhanced process control.


Specialized Applications

Research and Development

Chemical research laboratories utilize the product for synthesis studies and formulation development.

Expected Benefits:

  • Accurate testing.

  • Improved innovation capabilities.

  • Better process optimization.


Performance Material Development

Used in specialized chemical pathways designed for advanced industrial materials.

Expected Benefits:

  • Controlled reaction performance.

  • Reliable product development.

  • Enhanced technical capabilities.


Industries Served

Chemical Manufacturing

Widely used in specialty chemical production and industrial synthesis operations.

Specialty Chemicals

Supports the development of advanced formulations and performance-oriented compounds.

Polymer Industry

Contributes to selected synthesis pathways involving high-performance polymer materials.

Dye and Pigment Industry

Supports the production of specialized colorant-related compounds.

Research and Development

Utilized in laboratories conducting chemical innovation and formulation studies.

Advanced Materials Industry

Serves as a valuable intermediate in p...