Organic chemistry relies on a toolkit of versatile building blocks to construct complex molecules, and 5-Phenylvaleric Acid (CAS: 2270-20-4) is a prime example of such an essential compound. NINGBO INNO PHARMCHEM CO.,LTD. recognizes its significance and is committed to supplying this compound to the research community and industry.

As a fundamental 'chemical synthesis intermediate', 5-Phenylvaleric Acid features a unique structure that lends itself to a myriad of applications in organic synthesis. Its phenyl group provides aromaticity and sites for electrophilic aromatic substitution, while the valeric acid chain offers a carboxylic acid functionality that can undergo esterification, amidation, and reduction reactions. This dual nature makes it invaluable for creating a wide array of organic compounds, from simple derivatives to complex pharmaceutical precursors.

Researchers often seek to 'buy 5-phenylvaleric acid' to leverage its properties in developing novel materials, pharmaceuticals, and fine chemicals. The compound's typical appearance as a white crystalline powder, coupled with its consistent purity levels of over 97%, ensures reliable performance in various synthetic pathways. For those looking for a '5-phenylvaleric acid supplier' or 'manufacturer', NINGBO INNO PHARMCHEM CO.,LTD. in China provides a dependable source.

The '5-phenylvaleric acid price' is also an important consideration, especially for academic research or pilot-scale projects. NINGBO INNO PHARMCHEM CO.,LTD. aims to make this critical reagent accessible by offering competitive pricing, enabling broader exploration of its synthetic potential. Whether it's for academic research or industrial production, understanding the specific needs of 'organic chemistry reagents' is at the core of our service.

By providing high-quality 5-Phenylvaleric Acid, NINGBO INNO PHARMCHEM CO.,LTD. empowers chemists to push the boundaries of discovery. Our commitment as a '5-phenylvaleric acid manufacturer' ensures that you receive a product that meets the rigorous demands of modern organic chemistry.