4-Hydroxymethyl-7-azaindole: A Versatile Building Block for Advanced Chemical Synthesis
Discover the critical role of 4-Hydroxymethyl-7-azaindole (CAS 936549-95-0) as a fundamental organic building block. Explore its chemical properties, synthesis pathways, and widespread applications in research and development, making it a sought-after compound for chemists and researchers worldwide.
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4-Hydroxymethyl-7-azaindole
As a reliable supplier in China, we offer 4-Hydroxymethyl-7-azaindole (CAS 936549-95-0), a vital intermediate in organic synthesis. Its unique chemical structure, C8H8N2O, with a molecular weight of 148.16 g/mol, makes it indispensable for various chemical transformations. We provide this compound with high purity, supporting your advanced chemical research and development needs.
- Explore 4-Hydroxymethyl-7-azaindole synthesis pathways to understand its preparation and potential modifications for specific applications.
- Source reliable 7-Azaindole-4-methanol suppliers globally for your project needs, ensuring consistent quality and availability.
- Understand the comprehensive CAS 936549-95-0 chemical properties to effectively integrate it into your synthetic strategies.
- Leverage this essential organic building block for research, enabling the creation of novel compounds and materials.
Advantages Offered
High Purity and Quality
Our commitment to quality ensures that 4-Hydroxymethyl-7-azaindole is supplied with high purity, which is crucial for accurate and reproducible results in your research, supporting effective organic chemistry experiments.
Versatile Synthetic Utility
The molecular structure of 4-Hydroxymethyl-7-azaindole provides diverse reaction sites, making it a versatile component for creating complex molecules in chemical synthesis.
Global Supply Network
Benefit from a robust network of fine chemical intermediates China suppliers, ensuring efficient sourcing and timely delivery for your projects.
Key Applications
Chemical Synthesis
This compound is fundamental for various synthetic routes, serving as a key component in constructing larger, more complex organic molecules, contributing to advancements in organic chemistry.
Pharmaceutical Research
Its structure makes it valuable for developing new drug candidates and therapeutic agents, playing a vital role in pharmaceutical research and drug discovery.
Organic Chemistry Studies
Researchers utilize 4-Hydroxymethyl-7-azaindole to explore new reaction mechanisms and develop novel synthetic methodologies, furthering the field of organic chemistry.
Materials Science
The unique properties of azaindole derivatives can be exploited in the development of new functional materials, aiding innovation in materials science.