In the dynamic field of chemical synthesis, access to well-defined, high-purity intermediates is fundamental for driving innovation and achieving successful results. 3-(Aminomethyl)-2-bromothiophene (CAS: 157664-47-6) stands out as a particularly useful heterocycle, offering a dual functionality that makes it a prized building block for a variety of advanced applications, especially in pharmaceutical research. For any scientist or procurement specialist looking to buy this compound, understanding its value proposition and sourcing it wisely is key.

The molecular structure of 3-(Aminomethyl)-2-bromothiophene combines a thiophene ring with a bromine atom at the 2-position and an aminomethyl group at the 3-position. This arrangement makes it an ideal substrate for a wide array of chemical transformations. The bromine atom is a prime site for palladium-catalyzed cross-coupling reactions, enabling the facile introduction of aryl, heteroaryl, or alkyl groups. Simultaneously, the primary amine in the aminomethyl group can readily undergo reactions such as acylation, sulfonylation, or reductive amination, allowing for the attachment of diverse functional groups or the formation of new cyclic structures. This versatility is highly sought after by synthetic chemists.

When considering the procurement of this intermediate, identifying a reliable manufacturer or supplier is paramount. Companies specializing in fine chemicals and pharmaceutical intermediates, often located in China, offer this compound with a standard purity of 95%min. This specification is generally sufficient for most research and development purposes, ensuring that the intermediate performs predictably in subsequent synthetic steps. It's always advisable to obtain a Certificate of Analysis (CoA) from the supplier to verify the purity and specifications.

The applications for 3-(Aminomethyl)-2-bromothiophene are broad, but it finds significant utility in the synthesis of pharmacologically active compounds, agrochemicals, and materials science. Its incorporation into molecular structures can impart specific electronic or steric properties that are beneficial for target binding or material performance. Researchers in drug discovery programs, for instance, can leverage this intermediate to build novel molecular scaffolds, exploring new therapeutic avenues.

For those in need of this critical chemical, seeking out a trusted supplier that can provide consistent quality and competitive pricing is essential. Whether you are looking to purchase small quantities for laboratory research or larger volumes for pilot-scale synthesis, understanding the market and identifying reputable sources will streamline your procurement process. Always request a quote and inquire about the availability of free samples to ensure the product meets your exact project requirements. Partnering with the right chemical provider is a strategic step towards successful synthesis.