The relentless pursuit of novel therapeutics demands a steady supply of high-quality chemical building blocks. 2-ETHYL-4-PHENYLINDENE (CAS 203983-14-6) is one such compound, offering significant utility in pharmaceutical research and development due to its specific chemical structure and properties. This article explores its key characteristics and applications for scientists in the field.

As a key pharmaceutical intermediate, 2-ETHYL-4-PHENYLINDENE possesses a molecular formula of C17H16 and a molecular weight of 220.31. It is typically supplied as a white solid with a high purity level, often exceeding 99%. These attributes are critical for its use in sensitive chemical reactions common in drug discovery. The consistent purity ensures reproducibility in experimental results and the integrity of synthesized compounds, making it a preferred choice for researchers when they buy 2-ETHYL-4-PHENYLINDENE.

The applications of 2-ETHYL-4-PHENYLINDENE in pharmaceutical research are broad. It serves as a valuable starting material or intermediate in complex organic synthesis pathways. Chemists utilize it for constructing specific molecular scaffolds that are precursors to potential drug candidates. Its role in API synthesis is crucial, contributing to the development of new active ingredients for various therapeutic areas. Researchers often rely on such specialized intermediates to advance their projects, seeking out reliable chemical suppliers who can guarantee product quality.

For R&D professionals looking to source this compound, partnering with an experienced manufacturer is beneficial. Access to a dependable supply of 2-ETHYL-4-PHENYLINDENE from a trusted supplier, especially one offering competitive pricing for research quantities, can greatly accelerate the pace of discovery. Whether for early-stage screening or process development, understanding the properties and potential of this intermediate, and procuring it from a quality-conscious provider, is essential for successful pharmaceutical innovation.