In the intricate field of organic synthesis, the selection of high-quality intermediates is paramount to the success of any chemical reaction. TETRAETHYLLEAD, identified by its CAS number 78-00-2, stands out as a valuable compound for various synthetic pathways. Known for its role as a colorless transparent oily liquid, it offers specific chemical properties that make it a sought-after reagent in the development of new chemical entities and processes. For researchers and production chemists, securing a reliable source of this intermediate is a critical aspect of their operations.

The chemical structure of TETRAETHYLLEAD, with its molecular formula C8H20Pb, lends itself to specific chemical transformations. Its ability to dissolve in most organic solvents, while being insoluble in water, makes it compatible with a wide range of reaction media commonly employed in organic chemistry. The typical purity specification of 98%min ensures that it functions effectively in synthesis, minimizing the introduction of unwanted byproducts that could complicate purification or affect reaction yields.

Beyond its chemical reactivity, the practical considerations of sourcing TETRAETHYLLEAD are significant. For those looking to purchase this compound, identifying a reputable manufacturer is crucial. China has emerged as a leading source for many industrial chemicals, and TETRAETHYLLEAD is no exception. Buyers often seek manufacturers who can demonstrate adherence to international quality standards, such as GMP and SGS certifications, and who can consistently deliver a product that meets stringent specifications like USP, BP, EP, and FCC. This commitment to quality is essential for reproducible results in synthesis and for meeting regulatory requirements.

The economic advantages of sourcing from established Chinese manufacturers are also considerable. Competitive pricing, coupled with a stable supply chain, allows research institutions and chemical companies to manage their procurement costs effectively. Inquiries for bulk quantities or long-term supply agreements are common, as the demand for high-quality intermediates like TETRAETHYLLEAD often spans multiple projects and production cycles.

In conclusion, TETRAETHYLLEAD serves as a vital intermediate for the advancement of organic synthesis. Its unique chemical properties, combined with the availability of high-purity material from trusted China suppliers, make it an accessible and valuable component for chemical innovation. By prioritizing quality and reliable partnerships, the scientific and industrial communities can continue to leverage TETRAETHYLLEAD for their critical synthetic needs.