At NINGBO INNO PHARMCHEM CO.,LTD., we are committed to advancing scientific research by providing high-quality chemical reagents. Triphenylbismuth, cataloged under CAS 603-33-8, is one such compound that finds significant utility as a research reagent across diverse scientific disciplines. Its distinct chemical properties and structural characteristics make it a subject of considerable interest in academic and industrial research laboratories.

The compound is typically described as a white crystalline solid, noted for its sensitivity to moisture. This characteristic underscores the importance of proper storage and handling procedures when working with Triphenylbismuth. Understanding the triphenylbismuth chemical properties, such as its molecular weight (440.29) and empirical formula (C18H15Bi), is crucial for researchers to accurately calculate concentrations and design experiments. The triphenylbismuth density of 1.585 g/cm³ also provides valuable data for physical characterization.

In research settings, Triphenylbismuth is employed in various synthetic pathways and material science investigations. Its organometallic nature allows it to participate in reactions that are not readily achievable with organic compounds alone. Researchers often utilize it as a precursor for creating novel bismuth-containing materials with potentially useful electronic, catalytic, or optical properties. The ability to buy high purity triphenylbismuth ensures that experimental results are reliable and reproducible.

The wide range of triphenylbismuth CAS 603-33-8 applications in research includes its exploration in catalysis, organometallic chemistry, and the development of new functional materials. Its specific physical state, like its melting point range of 78-80°C, also influences experimental design, particularly in reactions requiring controlled temperature conditions.

NINGBO INNO PHARMCHEM CO.,LTD. understands the critical role that reliable reagents play in scientific breakthroughs. We ensure that our Triphenylbismuth meets the high standards required for research, enabling scientists to confidently explore its potential in their projects. The ongoing study of organobismuth compounds promises exciting advancements, with Triphenylbismuth poised to remain a key player in this field.