Organic synthesis is the art and science of constructing complex molecules, and the availability of well-defined, reactive intermediates is key to success. Benzothiazole derivatives, renowned for their diverse applications in medicinal chemistry, materials science, and agrochemicals, represent a vital class of compounds. Among these, 4-Bromo-2-benzothiazolamine (CAS: 20358-02-5) serves as an excellent example of a versatile building block that can significantly optimize synthetic routes.

As a dedicated supplier of high-quality chemical reagents, we recognize the importance of intermediates that offer both reactivity and purity. 4-Bromo-2-benzothiazolamine, typically supplied with a purity of 97% minimum, provides the necessary reliability for demanding synthetic projects. Its structure features a benzothiazole core functionalized with a bromine atom and an amino group, offering multiple points for chemical manipulation. This makes it an ideal starting material for chemists aiming to create novel organic structures.

When considering the purchase of such specialized chemicals, procurement managers often seek competitive pricing and assured quality from a reliable manufacturer. Sourcing from established chemical suppliers, particularly those with a strong presence in China, can provide significant advantages. These suppliers often maintain stringent quality control measures and can offer bulk quantities at attractive price points, facilitating large-scale research and production.

The utility of 4-Bromo-2-benzothiazolamine in organic synthesis stems from its inherent reactivity. The bromine atom is a prime site for palladium-catalyzed cross-coupling reactions, such as Suzuki-Miyaura, Sonogashira, and Heck couplings. These reactions are fundamental in building complex carbon frameworks and introducing diverse substituents onto the benzothiazole core. Furthermore, the amino group at the 7-position can undergo various functionalization reactions, including acylation, sulfonylation, and alkylation, allowing for the fine-tuning of molecular properties.

For researchers exploring new materials or designing synthetic pathways, understanding the properties and potential applications of intermediates like 4-Bromo-2-benzothiazolamine is crucial. Its role as a general reagent in syntheses means it can be employed in a wide array of transformations, contributing to the efficient construction of advanced molecular architectures. If your research requires high-quality benzothiazole derivatives, exploring offerings from trusted chemical manufacturers will ensure the success of your organic synthesis endeavors.