In the intricate world of organic synthesis, the availability of specialized building blocks can significantly accelerate the pace of research and development. 6-Chloro-Isoquinoline (CAS 62882-02-4) stands out as a versatile heterocyclic compound, prized for its utility in creating complex molecular architectures. For chemists and product formulators, understanding its applications and how to reliably source it is a critical aspect of their work. This article delves into the importance of 6-Chloro-Isoquinoline in advanced synthesis and highlights the benefits of procuring this chemical from established Chinese manufacturers.

Chemical Profile of 6-Chloro-Isoquinoline

6-Chloro-Isoquinoline, identified by CAS number 62882-02-4, is a derivative of isoquinoline, featuring a chlorine atom at the 6th position of the isoquinoline ring system. Its molecular formula is C9H6ClN. Typically supplied as a white to light yellow solid, its specific physical and chemical properties make it an attractive intermediate for a range of synthetic pathways. These properties include its reactivity profile, which allows for further functionalization through various organic reactions, such as nucleophilic aromatic substitution or metal-catalyzed cross-coupling reactions.

Applications in Advanced Organic Synthesis

The primary utility of 6-Chloro-Isoquinoline lies in its role as a key intermediate in the synthesis of a diverse array of organic compounds. Its applications span several critical industries:

  • Pharmaceutical Research: It serves as a crucial precursor in the development of novel drug candidates. The isoquinoline scaffold is present in many biologically active natural products and synthetic pharmaceuticals, and the chlorine substituent at the 6-position provides a strategic handle for introducing further complexity and functionality, potentially leading to compounds with targeted therapeutic effects. Researchers looking to buy 6-chloro-isoquinoline for drug discovery often seek high purity to ensure the integrity of their synthesis.
  • Agrochemical Development: Derivatives of isoquinoline can exhibit pesticidal or herbicidal activity. 6-Chloro-Isoquinoline can be employed in the synthesis of new agrochemical formulations, contributing to crop protection solutions.
  • Material Science: The unique electronic and structural properties of isoquinoline derivatives can be leveraged in the development of advanced materials, such as organic semiconductors or dyes.
  • Fine Chemical Synthesis: Beyond pharmaceuticals, it is a valuable reagent for creating other fine chemicals used in various industrial processes.

Sourcing Strategies: Partnering with Chinese Suppliers

For researchers and businesses needing 6-Chloro-Isoquinoline, sourcing from China offers a compelling combination of quality and cost-effectiveness. Chinese manufacturers have established robust production capabilities for many complex organic molecules. When seeking to purchase CAS 62882-02-4, it is advisable to partner with manufacturers who:

  • Provide detailed product specifications and Certificates of Analysis (CoA).
  • Maintain high purity standards, often exceeding 98%.
  • Offer competitive pricing, especially for bulk orders.
  • Demonstrate a commitment to reliable delivery and export experience.
  • Possess relevant quality certifications (e.g., ISO).

Engaging directly with a Chinese chemical manufacturer can streamline the procurement process, ensuring you get the exact specifications required for your advanced organic synthesis projects.

In summary, 6-Chloro-Isoquinoline (CAS 62882-02-4) is an indispensable intermediate for modern organic synthesis. Its versatile chemical nature makes it a cornerstone in pharmaceutical development, agrochemicals, and material science. By understanding its applications and leveraging the strengths of Chinese chemical manufacturers for reliable supply and competitive pricing, research institutions and chemical companies can effectively advance their innovative projects.