In the vast and dynamic landscape of chemical synthesis, certain molecules serve as indispensable building blocks, enabling the creation of a myriad of valuable compounds. Tetrahydropyran-2-methanol, identified by its CAS number 100-72-1, is one such pivotal organic intermediate. Its unique structural features and reactivity make it a compound of significant interest to researchers and industrial chemists alike. This article explores its key characteristics, diverse applications, and provides guidance for those looking to source this essential chemical.

Tetrahydropyran-2-methanol, with the molecular formula C6H12O2, is a cyclic ether bearing a hydroxymethyl substituent. It typically presents as a colorless liquid, possessing a molecular weight of 116.16. The compound exhibits a boiling point of approximately 187°C, contributing to its handling and processing characteristics in industrial settings. The purity of Tetrahydropyran-2-methanol is a critical factor for its effective use, with manufacturers often providing grades exceeding 99% to meet the demanding requirements of advanced synthesis.

The primary utility of Tetrahydropyran-2-methanol lies in its role as an organic intermediate. This classification signifies its importance as a precursor in the synthesis of a broad spectrum of downstream products. Its structure allows for a range of chemical transformations, making it a valuable starting material in the pharmaceutical industry for the development of APIs and in the fine chemical sector for producing specialized molecules. For scientists engaged in discovery and development, having access to this compound is often a prerequisite for their experimental work.

When considering the acquisition of Tetrahydropyran-2-methanol, potential buyers often look for competitive price points and reliable supply. The global market for chemical intermediates is vast, with many manufacturers based in China offering high-quality products. Engaging with these suppliers requires a thorough understanding of their capabilities, quality control measures, and logistics. Requesting a detailed quote is a standard practice to evaluate the commercial aspects of the purchase.

The applications of Tetrahydropyran-2-methanol extend beyond simple synthesis. It can be employed in the creation of novel polymers, specialty coatings, and other advanced materials. Its presence in research literature often highlights its role in exploring new chemical methodologies or developing efficient synthetic routes to complex targets. For companies focused on innovation, securing a consistent supply of this intermediate is a strategic imperative.

For those seeking to buy Tetrahydropyran-2-methanol, whether for laboratory research or industrial-scale production, partnering with a reputable manufacturer is essential. Companies that specialize in intermediates understand the importance of purity, consistency, and regulatory compliance. Such partnerships ensure that the purchased material meets the exact specifications required for downstream applications, thereby safeguarding the integrity of the final product.

In conclusion, Tetrahydropyran-2-methanol (CAS 100-72-1) stands as a crucial organic intermediate, enabling innovation and production across multiple chemical industries. Its availability from reliable suppliers worldwide, particularly through competitive sourcing from Chinese manufacturers, ensures that the demand for this versatile compound can be met efficiently and effectively.