3-(4-Chlorophenyl)glutaric acid, a compound with the molecular formula C11H11ClO4 and CAS number 35271-74-0, stands as a significant entity within the realm of organic chemistry and its industrial applications. Primarily recognized as a pharmaceutical intermediate, its detailed chemical properties and synthesis pathways are of considerable interest to researchers and manufacturers alike. This article aims to provide an in-depth look at what makes this compound valuable, from its physical attributes to its role in creating essential medicines.

The physical appearance of 3-(4-Chlorophenyl)glutaric acid is that of a white powder, a common characteristic for many organic compounds used in fine chemical synthesis. Its molecular weight is approximately 242.66 g/mol. The compound's structure, featuring a glutaric acid backbone with a chlorophenyl substituent, lends itself to specific chemical reactions and transformations. This structural uniqueness is what makes it a sought-after ingredient for creating more complex molecules, especially in the pharmaceutical sector. When considering the buy 3-(4-Chlorophenyl)glutaric acid options, understanding these intrinsic chemical properties is fundamental.

One of the most prominent applications of 3-(4-Chlorophenyl)glutaric acid is its use as an intermediate in the synthesis of Baclofen. Baclofen is a skeletal muscle relaxant widely prescribed for conditions such as spasticity arising from multiple sclerosis or spinal cord injuries. The efficient and pure synthesis of Baclofen relies heavily on the quality of its precursors, making 3-(4-Chlorophenyl)glutaric acid a critical component in this process. The availability of this compound from reliable 3-(4-Chlorophenyl)glutaric acid suppliers, offering competitive prices, ensures that the production of such vital pharmaceuticals can proceed without interruption.

Beyond its role in Baclofen synthesis, this compound can also be explored for other fine chemical applications. Its reactive functional groups (carboxylic acids) allow for various derivatizations, opening avenues for research into new chemical entities. The study of its synthesis, often involving multi-step organic synthesis reactions, also provides valuable insights into chemical process optimization. Companies that specialize in fine chemical sourcing often list this compound, providing crucial materials for academic research and industrial development.

For those looking to procure this chemical, investigating the 3-(4-Chlorophenyl)glutaric acid quality standard is a priority. Manufacturers typically guarantee purity levels, often exceeding 99%, and adherence to recognized pharmacopoeial standards like USP, BP, and EP. This commitment to quality assurance is vital for pharmaceutical intermediates, as it directly influences the final API's profile. By prioritizing high-quality 3-(4-Chlorophenyl)glutaric acid, businesses can enhance the predictability and success rate of their chemical synthesis projects.

In summary, 3-(4-Chlorophenyl)glutaric acid is a compound of significant chemical and industrial importance. Its well-defined properties and critical role as a pharmaceutical intermediate, particularly for Baclofen, make it a cornerstone for many synthesis pathways. Sourcing this compound from reputable suppliers with a focus on quality and competitive pricing is a strategic move for any organization involved in pharmaceutical or fine chemical manufacturing.