1-(2-Iodoethyl)-4-octylbenzene: A Key Intermediate for Fingolimod Synthesis
In the intricate world of pharmaceutical manufacturing, the quality and availability of key intermediates directly impact the success of drug production. 1-(2-Iodoethyl)-4-octylbenzene (CAS 162358-07-8) is one such critical compound, serving as an essential building block in the synthesis of Fingolimod. This article delves into the importance of this chemical, its specifications, and how businesses can efficiently source it from reliable global manufacturers.
The Significance of 1-(2-Iodoethyl)-4-octylbenzene in Pharmaceutical Synthesis
1-(2-Iodoethyl)-4-octylbenzene, also recognized as 4-octylphenethyl iodide, is pivotal for the synthesis of Fingolimod (CAS:162359-55-9). Fingolimod is a sphingosine-1-phosphate receptor modulator used in the treatment of multiple sclerosis. The chemical's structure and reactivity make it an ideal precursor, enabling the efficient construction of the Fingolimod molecule. For companies engaged in the production of this therapeutic agent, securing a consistent supply of high-purity 1-(2-iodoethyl)-4-octylbenzene is paramount.
Key Properties and Specifications for Procurement
When looking to buy 1-(2-iodoethyl)-4-octylbenzene, understanding its specifications is crucial for ensuring it meets your project's needs. Typically, this compound presents as a colourless to yellow to brown liquid. A high assay, often ≥98.0%, is expected for pharmaceutical-grade intermediates. Manufacturers should provide comprehensive documentation, including Certificates of Analysis (CoA), detailing purity and physical properties. The stability of the product is maintained through proper storage, usually in a cool, well-ventilated area. For those seeking a consistent supply, identifying a dependable supplier in China or other manufacturing hubs is a strategic move.
Finding Reliable Suppliers and Manufacturers
The global chemical market offers numerous options for sourcing intermediates. However, for critical components like CAS 162358-07-8, due diligence is key. Reputable manufacturers will not only provide high-quality products but also offer competitive Fingolimod intermediate price points and reliable delivery schedules. Companies may seek out suppliers who specialize in pharmaceutical intermediates and can provide regulatory support. Whether you need the material for R&D or large-scale manufacturing, sourcing from established companies that adhere to international quality standards will ensure the integrity of your final product.
Applications Beyond Fingolimod?
While its primary application is in Fingolimod synthesis, the chemical structure of 1-(2-Iodoethyl)-4-octylbenzene suggests potential utility in other complex organic synthesis projects within the fine chemical and pharmaceutical sectors. Its alkylbenzene and iodoethyl functional groups offer reactivity that can be leveraged for creating various novel compounds. Researchers exploring new synthetic routes or seeking building blocks for diverse chemical libraries might find this compound of interest. For such exploratory work, sourcing 4-octylphenethyl iodide for R&D from specialized chemical providers is advisable.
In conclusion, 1-(2-Iodoethyl)-4-octylbenzene is an indispensable intermediate for Fingolimod production. By focusing on product quality, understanding specifications, and partnering with reliable manufacturers and suppliers, pharmaceutical companies can ensure a stable and efficient supply chain for this vital chemical.
Perspectives & Insights
Agile Reader One
“Whether you need the material for R&D or large-scale manufacturing, sourcing from established companies that adhere to international quality standards will ensure the integrity of your final product.”
Logic Vision Labs
“While its primary application is in Fingolimod synthesis, the chemical structure of 1-(2-Iodoethyl)-4-octylbenzene suggests potential utility in other complex organic synthesis projects within the fine chemical and pharmaceutical sectors.”
Molecule Origin 88
“Its alkylbenzene and iodoethyl functional groups offer reactivity that can be leveraged for creating various novel compounds.”