Di-p-tolylamine: A Versatile Organic Synthesis Intermediate
Discover the key properties and extensive applications of Di-p-tolylamine in pharmaceuticals, chemical research, and advanced materials.
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Di-p-tolylamine
Di-p-tolylamine, identified by CAS number 620-93-9, is a crucial organic compound known for its role as an intermediate in various synthesis processes. Its white powder appearance and a melting point range of 78-82°C make it a stable and manageable compound for laboratory and industrial use. This substance is highly valued in pharmaceutical research for its utility in comparative studies of analgesic and anti-inflammatory properties of N-phenylanthranilic acids, as well as in the investigation of antiparasitic activities of substituted diphenylamines.
- This chemical intermediate is vital for organic synthesis, enabling the creation of complex molecules.
- Its application in pharmaceutical research aids in evaluating drug efficacy, contributing to the development of new treatments.
- Di-p-tolylamine is utilized in chemical research for its role in exploring the anti-parasitic activities of specific compounds.
- The compound finds use in material science, particularly in the development of advanced polymers and electronic materials.
Key Advantages of Di-p-tolylamine
Versatile Intermediate
As a versatile organic synthesis intermediate, Di-p-tolylamine is instrumental in constructing a wide array of complex organic molecules, supporting diverse research and development efforts.
Pharmaceutical Research Support
Its use in pharmaceutical research supports the critical evaluation of potential drug candidates, particularly for analgesic and anti-inflammatory properties, thereby accelerating drug discovery.
Material Science Innovation
In material science, Di-p-tolylamine serves as a building block for novel polymers and functional materials, driving innovation in areas like organic electronics and high-performance polymers.
Key Applications
Organic Synthesis
Di-p-tolylamine is a foundational compound for various organic synthesis pathways, enabling the creation of fine chemicals and specialty organic compounds.
Pharmaceutical Research
It plays a role in pharmaceutical development by serving as a reagent in studies for analgesic and anti-inflammatory properties, crucial for new drug discovery.
Chemical Research
The compound is utilized in chemical research, including the investigation of anti-parasitic activities, contributing to the broader understanding of bioactive molecules.
Material Science
In material science, Di-p-tolylamine is employed in the synthesis of advanced materials, particularly in the field of organic electronics and high-performance polymers.
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