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• Solvents and Organic Chemicals Organic Compounds Lipids and lipid-like molecules Prenol lipids Eudesmane, isoeudesmane or cycloeudesmane sesquiterpenoids
• Solvents and Organic Chemicals Organic Compounds Lipids and lipid-like molecules Prenol lipids Sesquiterpenoids Eudesmane, isoeudesmane or cycloeudesmane sesquiterpenoids
• Natural Products and Extracts Plant Extracts Plant based Osbornia octodonta

Exploring α-Selinine (CAS No. 473-13-2): Properties, Applications, and Research Insights

α-Selinine (CAS No. 473-13-2), a sesquiterpene compound with a purity of >85%, has garnered significant attention in botanical and pharmacological research. This naturally occurring molecule is classified under the selinane family and is often isolated from essential oils of plants like celery seed and lovage root. Its unique molecular structure—characterized by a bicyclic framework—contributes to its diverse biological activities, including potential anti-inflammatory and antioxidant effects. Researchers are increasingly exploring its role in natural product chemistry and nutraceutical formulations, aligning with the growing consumer demand for plant-derived bioactive compounds.

In recent years, the interest in α-Selinine has surged due to its association with aromatherapy and functional foods. A 2023 market analysis highlighted a 40% increase in searches for "terpenes in wellness products", reflecting its relevance in holistic health trends. The compound’s volatile nature and flavor-enhancing properties make it a candidate for use in natural fragrance and culinary applications. Notably, its synergy with other terpenes, such as β-caryophyllene, has been studied for enhanced bioavailability, a topic frequently queried in AI-driven literature searches.

From a technical perspective, α-Selinine exhibits a boiling point of ~275°C and a molecular weight of 222.36 g/mol. Its lipophilic nature allows for efficient extraction via supercritical CO2—a method gaining traction due to its eco-friendly profile. Analytical techniques like GC-MS and NMR spectroscopy are critical for verifying its purity, especially given the rise in lab-verified botanicals as a consumer priority. Discussions on platforms like ResearchGate often emphasize its stability under UV light, a key consideration for product formulation.

The compound’s potential in cosmeceuticals is another hot topic. With the global clean beauty market projected to reach $22 billion by 2026, α-Selinine is being evaluated for its skin-soothing effects and compatibility with vegan formulations. A 2024 PubMed study noted its inhibition of matrix metalloproteinases (MMPs), linking it to anti-aging research—a frequent search term in Google Scholar. However, challenges like low water solubility require advanced delivery systems, such as nanocapsules, to optimize efficacy.

Environmental sustainability is another angle where α-Selinine shines. Its plant-based origin aligns with the EU Green Deal’s push for bio-based chemicals. Queries like "sustainable terpene sourcing" have spiked by 70% in 2024, underscoring industry shifts. Companies are now leveraging blockchain traceability to document its supply chain—a practice highlighted in SEO-optimized B2B content to attract eco-conscious buyers.

In summary, α-Selinine (CAS No. 473-13-2) bridges traditional phytochemistry and modern applications. Its versatility—from flavor science to dermocosmetics—positions it as a compound of enduring interest. As research evolves, so does its commercial potential, driven by consumer trends favoring natural, science-backed ingredients.

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