Phytol, identified by CAS number 150-86-7, is a naturally occurring acyclic diterpene alcohol that holds significant importance in the chemical and health industries. Derived from chlorophyll, this compound appears as a yellow to red-brown oily transparent liquid and is recognized for its critical role as a precursor in the synthesis of essential vitamins.

The primary industrial application of Phytol lies in its function as a key intermediate for the Phytol synthesis of Vitamin E. Vitamin E is a powerful antioxidant vital for cellular protection, immune support, and overall health. Phytol's structure is fundamental to creating the tocopherol molecule, making it an indispensable ingredient for manufacturers of nutritional supplements and cosmetic products. Furthermore, Phytol is also a crucial Phytol intermediate for Vitamin K1, which is essential for blood coagulation and bone health. The consistent demand for these vitamins ensures the ongoing importance of Phytol in the market.

Recent scientific investigations are expanding the understanding of Phytol pharmaceutical applications. Research has highlighted its potential as an antiparasitic agent, demonstrating effectiveness against diseases like schistosomiasis. This research suggests that Phytol could form the basis for new therapeutic drugs, particularly for neglected tropical diseases. Thorough Phytol toxicity data indicates a favorable safety profile, with low toxicity, which is a significant advantage for its development as a pharmaceutical ingredient.

For companies looking to buy Phytol CAS 150-86-7, understanding its specific chemical properties is key to ensuring product quality and efficacy. The consistent appearance and purity standards are critical factors for both vitamin synthesis and emerging pharmaceutical research. The versatility of Phytol as a chemical building block, combined with its biological activities, makes it a compound of significant interest for ongoing scientific exploration.

In conclusion, Phytol (CAS 150-86-7) is a compound of immense value, bridging the gap between natural product chemistry and vital health applications. Its established role in Vitamin E and K1 production, coupled with its promising pharmaceutical potential, underscores its continued relevance in the global chemical landscape.