Difluoro(4-methylphenyl)-λ³-iodane: Properties, Applications, and Synthesis
Explore the essential details of Difluoro(4-methylphenyl)-λ³-iodane (CAS 371-11-9), a key chemical intermediate in modern organic synthesis, known for its role in advanced chemical transformations.
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Difluoro(4-methylphenyl)-λ³-iodane
Difluoro(4-methylphenyl)-λ³-iodane, identified by CAS number 371-11-9, is a significant chemical intermediate. This compound is pivotal in various organic synthesis pathways, enabling the creation of complex molecules. As a reliable supplier in China, we ensure high purity (97% min) and consistent quality for your research and development needs.
- Uncover the properties of Difluoro(4-methylphenyl)-λ³-iodane, a crucial chemical intermediate in organic synthesis.
- Learn about the applications of CAS 371-11-9, particularly in advanced organic chemistry transformations.
- Access detailed information on its chemical and physical properties, including its melting point and molecular structure.
- Discover the role of hypervalent iodine compounds in contemporary chemical research.
Key Advantages
High Purity & Quality
Ensuring 97% minimum purity, this chemical intermediate is vital for precise organic synthesis, supporting the development of new compounds with predictable outcomes.
Versatile Chemical Intermediate
As a key component in various organic chemistry transformations, it facilitates complex molecular assembly, aiding in the discovery of novel chemical entities.
Reliable Supply Chain
We are a trusted manufacturer and supplier in China, committed to providing a stable and dependable source for your chemical needs.
Key Applications
Organic Synthesis
Utilize Difluoro(4-methylphenyl)-λ³-iodane in intricate organic synthesis pathways to build complex molecular architectures with high precision.
Chemical Intermediates
As a critical intermediate, it plays a key role in the multi-step synthesis of advanced chemicals and novel materials.
Research & Development
Essential for R&D in pharmaceuticals, agrochemicals, and material science, enabling the exploration of new chemical properties and applications.
Fine Chemical Manufacturing
Its well-defined properties make it suitable for specialized manufacturing processes requiring high-purity chemical inputs.