2-Iodoethynyl(trimethyl)silane: Your Key Pharmaceutical Intermediate
Unlock advanced organic synthesis with our high-purity 2-iodoethynyl(trimethyl)silane, a vital component for pharmaceutical development.
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2-Iodoethynyl(trimethyl)silane
This compound is a critical building block in the synthesis of complex organic molecules, particularly within the pharmaceutical industry. Its unique structure allows for versatile reactions, making it indispensable for researchers developing new drug candidates and advanced materials.
- Leverage 2-iodoethynyl(trimethyl)silane pharmaceutical intermediate for robust drug discovery processes.
- Explore the applications of CAS 18163-47-8 chemical in complex organic synthesis pathways.
- Secure a reliable supply of this essential fine chemical intermediate for your research and development needs.
- Benefit from the high purity (97% Min.) of our 2-iodoethynyl(trimethyl)silane for consistent and reproducible results.
Advantages of Using Our Product
Enhanced Synthetic Versatility
As a key building block in organic synthesis, this compound enables the creation of intricate molecular structures, crucial for pharmaceutical innovations.
Pharmaceutical Purity
With a minimum purity of 97%, this chemical supplier ensures that your projects benefit from high-quality materials, leading to more reliable outcomes.
Facilitates Advanced Research
Its unique reactivity makes it ideal for exploring new frontiers in chemical synthesis, including advanced materials and drug discovery.
Key Applications
Intermediates & Fine Chemicals
Utilize this versatile compound as a crucial component in the production of a wide array of fine chemicals and specialized organic compounds.
Pharmaceutical Raw Intermediates
Essential for the synthesis of Active Pharmaceutical Ingredients (APIs), this intermediate plays a pivotal role in drug manufacturing processes.
Organic Synthesis
A cornerstone reagent for organic chemists, facilitating complex reactions and the construction of novel molecular architectures.
Materials Science
Its silane structure and iodine functionality make it valuable in developing new materials with tailored properties for various high-tech applications.