In the intricate world of fine chemicals, precision and understanding are key. For professionals in chemical research and development, identifying and sourcing critical intermediates like 1,3,6,8-Tetrachloropyrene (CAS 81-29-8) is a fundamental step in achieving project success. This article delves into the essential properties and diverse applications of this compound, providing valuable insights for procurement managers and research scientists looking to buy this specialized chemical.

Unpacking the Details of 1,3,6,8-Tetrachloropyrene

1,3,6,8-Tetrachloropyrene, also known by synonyms such as NSC 93972, possesses the molecular formula C16H6Cl4 and EINECS number 201-340-4. Its structure is derived from pyrene, featuring four chlorine atoms at specific positions, which significantly influences its chemical reactivity and potential applications. With a melting point of 368 °C, it is a stable solid under standard conditions. Its predicted boiling point of 487.6±40.0 °C suggests high thermal stability. When considering its purchase, understanding its safety profile is crucial. Hazard statements such as H413 and H302 highlight the need for careful handling, as is standard for many industrial chemicals. Procurement specialists frequently look for a reliable 'supplier of 1,3,6,8-tetrachloropyrene' to ensure they receive materials that meet these safety and handling requirements.

Where Does 1,3,6,8-Tetrachloropyrene Find Its Use?

The primary utility of 1,3,6,8-Tetrachloropyrene lies in its role as a sophisticated building block in organic synthesis. Its specific chlorinated structure allows chemists to introduce particular functionalities into larger molecules. This makes it an indispensable compound for researchers and manufacturers involved in:

  • Advanced Organic Synthesis: As a key intermediate, it facilitates the creation of complex organic structures, paving the way for novel compounds with unique properties. Buyers often search for 'buy 1,3,6,8-tetrachloropyrene' when planning intricate synthesis routes.
  • Material Science Research: The unique electronic and structural properties conferred by the tetrachloropyrene moiety can be exploited in the development of advanced materials, including organic semiconductors or specialized polymers.
  • Fine Chemical Manufacturing: It serves as a precursor for a range of specialized chemicals, demanding high purity and consistent supply from manufacturers.

For those looking to procure this chemical, identifying a trusted 'manufacturer in China' is often a strategic move, offering both quality assurance and potential cost advantages. A search for '1,3,6,8-tetrachloropyrene price' will typically reveal competitive offers from established suppliers.

Sourcing Best Practices

When you intend to buy 1,3,6,8-Tetrachloropyrene, it is imperative to partner with a supplier who can provide comprehensive technical data and a Certificate of Analysis (CoA). This document confirms the product's purity and adherence to specifications. For bulk purchases, understanding the supplier's production capacity and delivery logistics is vital. Relying on manufacturers who have a proven track record in producing fine chemicals ensures that your supply chain remains robust and that the quality of your end products is not compromised. For any scientist or purchasing manager, asking for a quote from a reputable 'C16H6Cl4 supplier' is the first step towards successful procurement.

In summary, 1,3,6,8-Tetrachloropyrene (CAS 81-29-8) is a valuable fine chemical intermediate with significant applications in synthesis and materials research. By understanding its properties and engaging with reliable manufacturers, businesses can ensure they are sourcing a high-quality product to drive innovation.