2-Iodo-3-methylaniline: A Key Pharmaceutical Intermediate for Synthesis and Research
Explore the essential properties and applications of 2-Iodo-3-methylaniline, a vital compound in organic chemistry.
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2-Iodo-3-methylaniline
2-Iodo-3-methylaniline is a significant organic compound primarily utilized as a pharmaceutical intermediate and a valuable building block in various organic synthesis processes. Its well-defined chemical structure and high purity make it a reliable choice for researchers and manufacturers.
- Discover the advantages of using 2-iodo-3-methylaniline synthesis for complex molecular construction. This compound serves as a crucial starting material for creating advanced chemical structures.
- Procure high purity 2-iodo-3-methylaniline from trusted suppliers to ensure the success and reproducibility of your chemical reactions and product development.
- Explore the CAS 89938-16-9 pharmaceutical intermediate applications in the development of new drug candidates and therapeutic agents.
- Utilize 2-iodo-3-methylaniline as a versatile organic synthesis building block for a wide array of chemical transformations and product innovations.
Advantages Offered by the Product
High Purity Assurance
Experience reliable results with our 2-iodo-3-methylaniline, boasting a purity of 99% min, crucial for demanding research chemical applications.
Versatile Chemical Reactivity
Leverage the reactivity of this organic synthesis building block to create diverse molecular architectures for various industries.
Efficient Synthesis Intermediate
Streamline your R&D process by using this CAS 89938-16-9 pharmaceutical intermediate, designed for efficient incorporation into synthetic pathways.
Key Applications
Pharmaceutical Synthesis
A critical component in the synthesis of active pharmaceutical ingredients (APIs), aiding in the development of novel therapeutics.
Organic Chemistry Research
An indispensable tool for academic and industrial researchers exploring new chemical reactions and molecular discoveries.
Chemical Building Block
Serves as a fundamental precursor in the creation of complex organic molecules for diverse industrial applications.
Material Science
Potential applications in material science, contributing to the development of new functional materials.