In the vast world of chemical compounds, certain molecules stand out due to their versatility and critical role in enabling scientific and industrial advancements. CAS 6052-15-9, scientifically identified as 4-[2-(4-aminophenyl)ethynyl]aniline, is one such compound. This aromatic diamine, featuring both amine and ethynyl functional groups, has become an indispensable intermediate in numerous applications, driving innovation across organic synthesis, material science, and even the pharmaceutical sector.

The chemical structure of 4-[2-(4-aminophenyl)ethynyl]aniline is key to its broad utility. The presence of two aniline groups makes it an excellent candidate for polymerization reactions or for acting as a linker in complex molecular structures. The rigid ethynyl moiety imparts specific electronic and structural characteristics, making it particularly valuable for creating conjugated systems. This is why the compound is frequently used in organic electronic materials synthesis, where precise control over molecular architecture leads to enhanced device performance in areas like OLEDs and organic solar cells.

As a chemical intermediate, CAS 6052-15-9 facilitates the synthesis of a wide array of organic compounds. Its role as an aniline derivative building block allows chemists to introduce specific functionalities into larger molecules. The 4-[2-(4-aminophenyl)ethynyl]aniline synthesis pathways are well-established, ensuring reliable access to this compound. Researchers often seek this particular intermediate for its proven ability to contribute to the creation of novel materials with tailored properties.

Beyond materials science, the applications of 4-[2-(4-aminophenyl)ethynyl]aniline extend to the dye industry, where its conjugated structure aids in the development of vibrant and stable colorants. Furthermore, in the pharmaceutical field, it serves as a crucial starting material for the synthesis of potential drug molecules. The intricate nature of drug discovery often necessitates the use of specialized intermediates like this one, making CAS 6052-15-9 a valuable asset in medicinal chemistry research.

For those looking to procure this compound, understanding its availability from various manufacturers and comparing buy prices is essential. The consistent demand ensures a steady supply, often with varying purity grades to suit different applications. Whether used for small-scale laboratory experiments or large-scale industrial production, the accessibility and utility of 4-[2-(4-aminophenyl)ethynyl]aniline solidify its position as a cornerstone intermediate in modern chemistry.