The chemical industry thrives on the availability of versatile building blocks that can be used to construct a wide array of complex molecules. N-(4-Cyanophenyl)glycine, identified by its CAS number 42288-26-6, stands out as such a compound, particularly within the realm of glycine derivative synthesis. This article explores its utility and the diverse applications that stem from its unique chemical structure.

As a key fine chemical building block, N-(4-Cyanophenyl)glycine provides chemists with a functionalized glycine moiety attached to a cyanophenyl group. This structure allows for a multitude of chemical transformations, making it a valuable starting material for various synthetic pathways. Its use as a pharmaceutical intermediate is well-documented, notably in the production of anticoagulants, but its potential extends much further.

In the context of advanced organic synthesis, the nitrile group and the amino acid functionalities within N-(4-Cyanophenyl)glycine offer distinct reaction sites. This enables chemists to perform selective modifications, leading to the creation of diverse molecular scaffolds. Whether developing new catalysts, functional materials, or complex drug candidates, this intermediate proves to be a reliable asset.

For those involved in specialty chemicals for API manufacturing, understanding the reliable sourcing of compounds like N-(4-Cyanophenyl)glycine is critical. The ease with which one can buy N-(4-Cyanophenyl)glycine from reputable global suppliers ensures that research and production lines remain uninterrupted.

The broad scope of cyanophenyl glycine uses highlights its adaptability. From contributing to life-saving pharmaceuticals to potentially enabling new material sciences applications, N-(4-Cyanophenyl)glycine is a testament to the power of strategic molecular design. Its consistent quality and predictable reactivity make it a cornerstone in many chemical research and development efforts.