Beyond its established use as a pharmaceutical intermediate for Alverine, 1-Chloro-3-phenylpropane (CAS 104-52-9) stands out as a versatile compound in the broader field of advanced organic synthesis. Its molecular structure, featuring a reactive chlorine atom and a stable phenyl ring connected by a propyl chain, makes it an attractive starting material or intermediate for a variety of chemical transformations.

For chemists and researchers, 1-Chloro-3-phenylpropane offers several synthetic advantages. The presence of the chlorine atom allows for straightforward nucleophilic substitution reactions. This enables the introduction of various functional groups, such as amines, alcohols, ethers, or thiols, onto the propyl chain. For example, reaction with primary or secondary amines can lead to the formation of substituted propylamines, which are common motifs in pharmaceuticals, agrochemicals, and specialty materials.

Furthermore, the phenyl group contributes to the molecule's electronic and steric properties, influencing the reactivity and selectivity of reactions occurring at other parts of the molecule. This makes 1-Chloro-3-phenylpropane a valuable building block for constructing more complex aromatic or aliphatic structures. Researchers looking to synthesize novel compounds for applications ranging from material science to fine chemicals might find this intermediate particularly useful.

When considering its procurement, chemists and procurement managers often look for reliable suppliers who can guarantee high purity, typically above 99%. Searching for 'organic synthesis building blocks' or 'fine chemical suppliers' will often highlight manufacturers like NINGBO INNO PHARMCHEM CO., LTD., who specialize in providing such compounds. Understanding the 'CAS 104-52-9 price' from reputable sources allows for efficient budgeting of research projects.

The availability of 1-Chloro-3-phenylpropane as a 'fine chemical' from manufacturers in China provides researchers worldwide with access to a cost-effective and high-quality reagent. Its versatility as a synthetic tool underscores its importance in pushing the boundaries of chemical innovation and developing new materials and molecules for diverse industrial applications.