For R&D scientists and formulation chemists, selecting the right chemical building blocks is fundamental to the success of their synthesis projects. 6-Chloro-4-iodo-3-pyridinol (CAS 877133-58-9) stands out as a highly functionalized pyridine derivative, offering unique opportunities in organic synthesis, particularly within the pharmaceutical and agrochemical industries. Understanding its chemical characteristics and sourcing options is vital for optimizing synthetic routes and achieving desired molecular targets.

Chemical Properties and Synthesis Utility

With a molecular formula of C5H3ClINO and a molecular weight of 255.44, 6-Chloro-4-iodo-3-pyridinol is recognized for its versatility. Its structure incorporates a pyridine ring with strategically placed chlorine and iodine atoms, along with a hydroxyl group. This arrangement allows for diverse chemical transformations, including nucleophilic substitutions, cross-coupling reactions, and modifications of the hydroxyl group. These reactions are essential for constructing complex molecules with specific biological activities. Researchers often seek out 'high purity pyridine derivatives' to ensure these transformations proceed efficiently.

A Key Intermediate for Innovation

  • Pharmaceutical Applications: As a critical pharmaceutical intermediate, this compound enables the synthesis of potential drug candidates targeting a wide range of diseases. Its incorporation into complex molecular structures can lead to enhanced efficacy and targeted drug delivery. If you are looking to buy this essential component for your drug discovery pipeline, consider partnering with a reputable supplier.
  • Agrochemical Advancements: In the agrochemical sector, 6-Chloro-4-iodo-3-pyridinol is utilized to develop next-generation crop protection agents. Its structure can be modified to create potent herbicides, insecticides, and fungicides that offer improved performance and environmental profiles. Sourcing this as an agrochemical intermediate is a common strategy for innovation.
  • Organic Synthesis Expertise: Its utility extends to broader organic synthesis endeavors. Chemists leverage its reactive sites to create novel organic compounds for materials science, specialty chemicals, and academic research. When exploring these applications, understanding the price and availability from various manufacturers is important.

Securing Your Supply Chain

The reliable procurement of 6-Chloro-4-iodo-3-pyridinol is paramount for uninterrupted research and production schedules. Identifying manufacturers that offer consistent quality and competitive prices is key. Companies specializing in fine chemical intermediates often provide comprehensive product documentation and responsive customer support, facilitating seamless purchases. Whether you are initiating a new research project or scaling up production, sourcing from a trusted supplier ensures that you receive a product that meets stringent quality standards, contributing directly to the success of your synthesis efforts.