Tributyltin Azide CAS 17846-68-3: Synthesis, Applications, and Safety in Organic Chemistry
Explore the versatile applications and critical safety considerations of Tributyltin Azide, a key organotin compound essential for modern organic synthesis and pharmaceutical development.
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Tributyltin Azide
As a leading supplier in China, NINGBO INNO PHARMCHEM CO.,LTD. offers high-purity Tributyltin Azide (CAS 17846-68-3). This organotin compound is pivotal for synthesizing tetrazoles, crucial building blocks in many pharmaceuticals, including antihypertensives. Its unique reactivity also makes it valuable in materials science and the development of energetic materials. We ensure reliable supply and quality for your research and manufacturing needs.
- Expertly synthesized and purified, Tributyltin Azide (CAS 17846-68-3) is a vital organotin compound for advanced organic synthesis.
- Explore the synthesis of tetrazoles, a key application of this chemical reagent, impacting pharmaceutical intermediate production.
- Understand the biological properties and potential applications of Tributyltin Azide, from bioactivity studies to its role in drug discovery.
- We provide essential information on Tributyltin Azide toxicity and discuss green chemistry alternatives to this organotin compound.
Advantages Delivered
Versatile Reactivity
Tributyltin Azide (CAS 17846-68-3) showcases remarkable reactivity, facilitating key organic synthesis transformations like [3+2] cycloadditions with nitriles to form 5-substituted 1H-tetrazoles, a cornerstone for producing essential pharmaceutical intermediates.
Pharmaceutical Applications
This chemical reagent plays a critical role in the synthesis of blockbuster drugs, particularly angiotensin II receptor antagonists, highlighting its significance in pharmaceutical intermediate manufacturing and the development of life-saving medications.
Energetic Material Precursor
The compound is instrumental in developing nitrogen-rich energetic materials, leveraging the high nitrogen content of tetrazole derivatives for applications in propellants and explosives, pushing the boundaries of material science.
Key Applications
Organic Synthesis
Tributyltin Azide serves as a crucial chemical reagent in various organic synthesis pathways, most notably for the efficient formation of tetrazole rings, which are vital building blocks in medicinal chemistry.
Pharmaceutical Intermediates
Its application as a pharmaceutical intermediate is paramount in the production of widely prescribed drugs such as sartans (e.g., Losartan, Valsartan), underscoring its importance in the healthcare sector.
Materials Science
The unique properties of Tributyltin Azide make it a subject of interest in materials science for the development of novel functional materials and advanced chemical applications.
Energetic Materials Development
Research utilizes this organotin compound to synthesize nitrogen-rich energetic materials, contributing to advancements in high-performance explosives and propellants.