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Catalog Number:
25866
CAS Number:
31295-66-6
4-Yodo-5-metil-3-fenilisoxazol
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Product Information

4-Iodo-5-methyl-3-phenylisoxazole is a versatile compound widely recognized for its applications in medicinal chemistry and organic synthesis. This compound features a unique isoxazole ring structure, which enhances its reactivity and makes it a valuable intermediate in the development of pharmaceuticals. Its iodine substituent contributes to its utility in various coupling reactions, facilitating the synthesis of complex organic molecules. Researchers have utilized 4-Iodo-5-methyl-3-phenylisoxazole in the design of novel anti-inflammatory and anti-cancer agents, showcasing its potential in therapeutic applications.

In addition to its pharmaceutical relevance, this compound serves as a key building block in materials science, particularly in the development of functionalized polymers and dyes. Its ability to undergo electrophilic substitution reactions opens avenues for creating tailored materials with specific properties. With its diverse applications and unique chemical properties, 4-Iodo-5-methyl-3-phenylisoxazole stands out as a crucial compound for researchers and industry professionals looking to innovate in drug discovery and materials development.

CAS Number
31295-66-6
Molecular Formula
C10H8INO
Molecular Weight
285.08
MDL Number
MFCD02681888
PubChem ID
2776150
Conditions
Conservar entre 0 y 8 °C.
General Information
CAS Number
31295-66-6
Molecular Formula
C10H8INO
Molecular Weight
285.08
MDL Number
MFCD02681888
PubChem ID
2776150
Conditions
Conservar entre 0 y 8 °C.
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
No
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

4-Iodo-5-methyl-3-phenylisoxazole is widely utilized in research focused on:

  • Pharmaceutical Development: This compound serves as a key intermediate in the synthesis of various pharmaceuticals, particularly in developing anti-inflammatory and analgesic drugs, enhancing therapeutic options for patients.
  • Material Science: It is used in the formulation of advanced materials, such as polymers and coatings, where its unique properties contribute to improved durability and performance.
  • Organic Synthesis: Researchers leverage its reactivity in organic synthesis to create complex molecular structures, facilitating the discovery of new compounds with potential applications in various fields.
  • Biological Research: The compound is valuable in biological studies, particularly in understanding its interaction with biological systems, which can lead to insights in drug design and development.
  • Analytical Chemistry: It is employed as a reference standard in analytical chemistry, aiding in the development of methods for detecting and quantifying similar compounds in various samples.

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