Tetrapropylammonium Iodide (CAS 631-40-3): A Key Intermediate for Dye-Sensitized Solar Cells and Pharmaceutical Synthesis
Explore the critical role of Tetrapropylammonium Iodide in advancing solar energy technology and complex pharmaceutical synthesis. Discover its application as a high-purity chemical intermediate.
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Tetrapropylammonium Iodide
As a leading supplier in China, we offer high-quality Tetrapropylammonium Iodide (CAS 631-40-3), a versatile chemical intermediate essential for cutting-edge applications. Its high purity (97% Min.) and specific physical properties make it an ideal component for dye-sensitized solar cells and as a crucial building block in pharmaceutical intermediate synthesis.
- Explore the benefits of high purity tetrapropylammonium iodide for your advanced material needs.
- Discover its role in dye sensitized solar cell electrolyte formulations, enhancing energy conversion.
- Learn how this compound serves as a vital pharmaceutical intermediate for complex synthesis processes.
- Understand the significance of this chemical synthesis intermediate in various research and industrial settings.
Advantages Offered
Exceptional Purity
Our Tetrapropylammonium Iodide is characterized by its exceptional purity, meeting the demanding standards required for advanced applications like dye sensitized solar cell electrolyte development.
Versatile Applications
This compound is a key synthesis material intermediate, enabling innovation in both the renewable energy sector and the pharmaceutical industry, facilitating complex chemical synthesis.
Reliable Supply
We are a trusted manufacturer in China, committed to providing a consistent and reliable supply of Tetrapropylammonium Iodide, supporting your production and research timelines.
Key Applications
Dye-Sensitized Solar Cells
Tetrapropylammonium Iodide plays a crucial role in dye-sensitized solar cell electrolytes, contributing to improved efficiency and stability in solar energy conversion. Its use is vital for achieving better dye sensitized solar cell electrolyte performance.
Pharmaceutical Intermediates
As a critical pharmaceutical intermediate, it is employed in the synthesis of various active pharmaceutical ingredients, underscoring its importance in pharmaceutical intermediate synthesis.
Organic Synthesis
This compound serves as a valuable reagent in organic synthesis, enabling chemists to construct complex molecules through efficient chemical synthesis pathways.
Material Science
Its unique properties make it a subject of interest in material science research, particularly for developing new functional materials and improving existing ones, aiding in the search for new synthesis material intermediates.