For chemists and material scientists, understanding the utility of specific chemical building blocks is key to innovation. 4-Iodotetrahydro-2H-pyran, catalogued under CAS number 25637-18-7, is a functionalized heterocyclic compound that has garnered attention for its versatile applications in organic synthesis. Its unique structure, featuring an iodine atom on a saturated six-membered ring containing an oxygen atom, allows for a range of valuable chemical transformations. This article aims to highlight its chemical significance and diverse applications, guiding professionals on where to source this important intermediate.

The chemical structure of 4-Iodotetrahydro-2H-pyran makes it an excellent substrate for nucleophilic substitution and metal-catalyzed cross-coupling reactions. The iodine atom serves as a good leaving group, enabling the introduction of various functional groups onto the tetrahydropyran scaffold. This capability is particularly leveraged when chemists need to 'buy 4-iodotetrahydro-2h-pyran' for constructing complex molecular architectures. Its use as a 'pharmaceutical intermediate' is a prime example, where it can be incorporated into the synthesis of novel drug candidates, contributing to the development of therapeutics with specific biological activities.

As a leading 'manufacturer' of fine chemicals, particularly those based in China, we offer 4-Iodotetrahydro-2H-pyran with guaranteed purity levels, often exceeding 97%. This high purity is essential for reproducible and efficient synthetic outcomes, minimizing the generation of byproducts and simplifying purification processes. When looking for a '4-iodotetrahydro-2h-pyran supplier China', prioritize those who provide comprehensive technical data, including detailed 'chemical properties' such as boiling point, density, and stability information.

The applications of 4-Iodotetrahydro-2H-pyran extend beyond pharmaceuticals. It finds utility in the synthesis of advanced materials, agrochemicals, and as a reagent in academic research exploring new synthetic methodologies. For R&D departments, securing a reliable supply of this compound is critical. By inquiring about 'price' and requesting detailed quotes from manufacturers, organizations can ensure they are obtaining this valuable intermediate at a competitive market rate, facilitating their research and development initiatives.

In conclusion, the chemical significance of 4-Iodotetrahydro-2H-pyran lies in its reactive iodine atom and its cyclic ether structure, making it a valuable tool for synthetic chemists. Whether your focus is drug discovery, materials science, or general organic synthesis, sourcing this intermediate from reputable 'suppliers' with a commitment to quality and a strong supply chain is key to successful project execution. Consider direct engagement with Chinese manufacturers for efficient procurement.