4-Iodo-1H-Indole: A Versatile Intermediate for Pharmaceutical and Material Science Innovations
Discover the key role of 4-Iodo-1H-Indole in advancing medicinal chemistry and material science breakthroughs.
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4-Iodo-1H-Indole
This iodinated indole serves as a crucial building block, facilitating advancements in both pharmaceutical development and materials science. Its unique chemical structure allows for precise modifications, making it indispensable in complex synthesis pathways.
- Leveraging 4-Iodo-1H-Indole synthesis for novel pharmaceutical building blocks to create next-generation therapeutics.
- Exploring CAS 81038-38-2 applications in the development of advanced materials for electronic devices.
- Utilizing the iodinated indole chemical intermediate in intricate organic synthesis pathways.
- Enhancing drug discovery through its role in medicinal chemistry intermediates for serotonin receptor ligand synthesis.
Advantages Offered
Synthetic Versatility
The iodine substituent on the indole ring provides a reactive handle for various cross-coupling reactions, enabling the construction of complex molecular architectures.
Material Science Integration
Its electronic properties make it suitable for integration into OLED material synthesis, contributing to more efficient and vibrant display technologies.
Pharmaceutical Efficacy
As a key component in serotonin receptor ligand synthesis, it aids in developing compounds with targeted therapeutic effects in medicinal chemistry.
Key Applications
Pharmaceutical Development
Serves as a critical intermediate in the synthesis of active pharmaceutical ingredients, particularly for neurological disorder treatments, showcasing its value in pharmaceutical synthesis.
Materials Science
Incorporated into advanced materials, such as organic light-emitting diodes (OLEDs), demonstrating its utility in OLED material synthesis.
Organic Synthesis
A versatile building block for creating complex organic molecules, essential for research chemists in both academic and industrial settings, highlighting its role in organic synthesis.
High-Throughput Screening
Facilitates the preparation of biaryl-containing libraries used in screening campaigns due to its amenability to cross-coupling reactions.