Sandalore, a synthetic aroma chemical, has shown its staying power not only in perfumery but also in a range of applications far beyond. Known for its rich, sandalwood-like scent, this compound brings together fragrance and science in a way that’s often overlooked. The structure of Sandalore, C16H30O, holds a prominent place among aromatic ketones due to its ability to mimic the natural aroma of sandalwood oil. In the lab, it appears as a clear, colorless to pale yellow liquid or sometimes as a waxy solid, depending on temperature and handling conditions. This adaptability offers both convenience and versatility for formulators and researchers.
Specific gravity tells quite a bit: Sandalore generally ranges from 0.96 to 0.98 g/cm³ at 20°C, so it sits just below water in terms of density. The molecular weight clocks in at about 238.41 g/mol, which places it firmly among midsize aroma compounds. While solubility in water is low, general compatibility with alcohol and other organic solvents is high, making it useful for liquid formulations. Sandalore tends to be a light, non-viscous liquid in most room-temperature environments, but in colder settings or when exposed to air for extended periods, it can solidify into a waxy mass. These shifting physical properties challenge handling procedures in the workplace and demand proper temperature controls during shipping and storage.
Commercially, Sandalore’s purity usually hits above 98%. The substance ships under HS Code 2909.50, grouping it in the family of ethers and related chemicals. Granular and powder forms exist, but fragrance manufacturers often prefer liquid or crystalline forms because they ensure ease of measurement and mixing with carrier solvents. Standard packaging starts at smaller volumes for niche perfumers and stretches to industrial-size drums, showing how widely it’s adopted across the market.
As an aroma raw material, Sandalore offers stability under normal conditions but will degrade under high heat, strong light, or extreme pH. The molecular backbone consists of a substituted cyclohexyl ketone, specifically 3-(1,3,3-Trimethyl-2,3-dihydro-1H-inden-5-yl) butan-2-one. That mouthful means the chemical stands tough against many oxidizers, though not all, and works well over a long shelf-life when stored properly. Sensory tests repeatedly confirm its mellow, velvety, woody note—an advantage for anyone blending custom fragrance profiles or masking off-putting odors in industrial applications.
Safety deserves attention. From experience with chemical raw materials, acute toxicity tests reveal Sandalore is generally safe in low concentrations. Direct skin contact or inhalation of pure vapor should be avoided, as it can cause irritation in sensitive individuals, especially in poorly ventilated rooms. Gloves and goggles cut down the risk of exposure. Limited data points to low long-term toxicity, but there have been occasional reports about mild allergic reactions. Regulatory agencies such as the European Chemicals Agency and the International Fragrance Association keep its use within accepted thresholds, striking a balance between creative freedom for perfumers and end-user safety.
The demand for sandalwood alternatives grows with the scarcity of natural sandalwood and the high cost of sustainable harvesting. Using synthetic compounds like Sandalore protects forests by reducing poaching pressure on genuine sandalwood trees. As regulations on volatile organic compounds and allergenic ingredients continue to evolve, the value of well-researched, stable, and largely safe synthetics grows. Producers document molecular data and batch specifications to keep supply chains transparent, so users can track sourcing and compliance from extraction to end-product shipment.
Factories and smaller perfumery labs need robust protocols for chemical guidance, hazard labeling, and safe storage. All chemical handling staff benefit from up-to-date safety data sheets, along with routine hazard training. Adopting closed-loop filling systems and using local exhaust hoods during sampling reduces exposure. Wash stations close to work areas reduce risk during spills. Waste disposal must follow local laws on aromatic ketones, since improper handling can put both workers and the environment at unnecessary risk.
Sandalore’s place in chemical processing and consumer fragrance products comes from more than just its scent; it’s about dependability, safety, and the choices manufacturers make to keep products both effective and responsible. Market adoption will probably keep growing as long as regulatory guidance stays focused and the science behind safe exposure levels continues to improve. For end-users, reliable information and access to batch-level specification sheets means better decisions at the point of use, whether that’s in cosmetics, soaps, or finished perfumes. While the chemical may not replace the intangible allure of true sandalwood, it offers a sustainable, predictable, and scalable answer to a challenge faced by everyone in the fragrance supply chain.
