Understanding the nuanced chemical properties of organometallic compounds is fundamental to their effective utilization in research and development. Rhenium Carbon Monoxide Bromide (CAS: 14220-21-4) exemplifies such a compound, offering a rich area of study for chemists. Ningbo Inno Pharmchem Co., Ltd. provides this essential material to facilitate in-depth research.

The chemical identity of Rhenium Carbon Monoxide Bromide (C5BrO5Re) reveals a metal center bonded to carbon monoxide ligands and a bromide ion. This unique arrangement imparts specific reactivity and coordination behavior. The carbon monoxide ligands, as strong pi-acceptors, influence the electron density on the rhenium atom, affecting its Lewis acidity and its ability to participate in various catalytic cycles. The bromide ligand can act as a good leaving group, enabling substitution reactions and the formation of new rhenium complexes.

When scientists choose to buy Rhenium Carbon Monoxide Bromide, they are often interested in its role as a precursor for synthesizing more complex rhenium complexes. The compound's stability and well-defined structure, coupled with its high purity (97% min), make it an excellent starting point for a variety of synthetic routes. Researchers can systematically modify the ligands or the metal center to explore new catalytic activities or material properties.

The coordination chemistry of rhenium carbonyls is a vast field. The presence of multiple carbonyl groups allows for various coordination modes and potential transformations. Studying the vibrational frequencies of the C-O bonds via infrared spectroscopy, for instance, can provide valuable insights into the electronic environment of the rhenium center and the strength of the metal-carbon bonds. This spectroscopic data is crucial for characterizing reaction products and understanding reaction mechanisms.

Furthermore, the potential of Rhenium Carbon Monoxide Bromide extends to its use in areas such as homogeneous catalysis, where it can mediate reactions like hydroformylation or carbonylation. Its organometallic nature also makes it a candidate for applications in material science, such as in the synthesis of functional polymers or nanoparticles. By providing reliable access to this compound, Ningbo Inno Pharmchem Co., Ltd. supports the ongoing exploration of rhenium's versatile chemical potential in research settings worldwide.