In the intricate world of chemical synthesis, specific molecular structures are prized for their versatility and reactivity. 3-Chloroiodobenzene, identified by CAS number 625-99-0, stands out as a key halogenated aromatic compound with significant utility across various scientific disciplines. For product formulators and research scientists, understanding its chemical properties and application scope is essential for driving innovation.

Understanding the Chemical Profile:

3-Chloroiodobenzene, also known by its IUPAC name 1-chloro-3-iodobenzene, possesses a molecular formula of C6H4ClI and a molecular weight of approximately 238.45 g/mol. Its physical characteristics typically include being a clear, light yellow liquid. Key chemical properties that make it a sought-after intermediate include:

  • Dual Halogen Functionality: The presence of both a chlorine and an iodine atom on the benzene ring offers differential reactivity, allowing for selective chemical modifications. The iodine atom, being a better leaving group, often participates more readily in cross-coupling reactions.
  • Aromatic System: As an aromatic compound, it participates in electrophilic aromatic substitution reactions, though the halogens influence the regioselectivity.
  • Stability: While generally stable, it is often described as light-sensitive, necessitating appropriate storage conditions, such as keeping it in a dark place and sealed in a dry environment at room temperature.

Applications in Research and Industry:

The unique chemical reactivity of 3-Chloroiodobenzene makes it a cornerstone for synthesizing more complex molecules. Its primary applications lie in:

  • Pharmaceutical Synthesis: It serves as a critical starting material or intermediate in the creation of various pharmaceutical compounds. Researchers can leverage its structure to build complex drug molecules, potentially leading to new therapeutic agents. When you need to buy 3-Chloroiodobenzene for pharmaceutical R&D, prioritizing suppliers with high-purity materials is crucial.
  • Agrochemical Development: In the agrochemical industry, 3-Chloroiodobenzene is used in the synthesis of pesticides, herbicides, and fungicides. Its structural features can be tailored to create molecules with specific biological activities for crop protection. Sourcing this intermediate from a reliable manufacturer ensures consistent performance in formulation.
  • Advanced Organic Synthesis: Beyond pharmaceuticals and agrochemicals, it is a valuable reagent in academic and industrial research for developing novel materials, catalysts, and organic electronic components.

For laboratories and chemical companies looking to purchase 3-Chloroiodobenzene, it is vital to partner with suppliers who can guarantee quality and provide technical support. Understanding the chemical properties of CAS 625-99-0 empowers scientists and buyers to make informed decisions, ensuring the success of their synthetic endeavors.