In the dynamic field of chemical research and manufacturing, understanding the role and application of key intermediates is vital for driving innovation. Tris(4-(1H-imidazol-1-yl)phenyl)amine, bearing the CAS number 1258947-79-3, stands out as a versatile building block with significant utility in modern synthetic chemistry. As a dedicated supplier, we aim to illuminate its importance for R&D scientists and procurement professionals.

The compound's unique molecular structure, C27H21N7, with a molecular weight of 443.51, lends itself to being a crucial primary or secondary intermediate in complex synthetic routes. Its solid form, typically off-white to light brown, makes it convenient for handling and integration into laboratory processes. Researchers often seek out this specific intermediate when designing novel organic molecules, particularly in areas requiring precise amine functionalization and heterocyclic incorporation.

The applications of Tris(4-(1H-imidazol-1-yl)phenyl)amine extend into several cutting-edge fields. In material science, its structural characteristics make it a valuable component for developing advanced materials, potentially for electronic or optoelectronic applications. For organic synthesis, it acts as a cornerstone, enabling the construction of elaborate molecular architectures that might otherwise be difficult to achieve. When you need to buy this intermediate, choosing a supplier with a strong reputation for quality and technical support is key.

We, as a leading manufacturer and supplier from China, offer Tris(4-(1H-imidazol-1-yl)phenyl)amine with a guaranteed minimum purity of 97%. This high purity ensures that your synthetic processes are robust and reproducible. We are committed to supporting your research and development endeavors by providing a reliable supply of this essential chemical. If you are looking to procure this compound for your next project, we invite you to request a quote and discover how our high-quality intermediates can facilitate your advancements in chemical synthesis.