|
HS Code |
371986 |
| Cas Number | 6168-73-8 |
| Molecular Formula | C8H16O |
| Molecular Weight | 128.21 g/mol |
| Iupac Name | oct-3-en-2-ol |
| Appearance | colorless to pale yellow liquid |
| Boiling Point | 169-171 °C |
| Density | 0.828 g/mL at 25 °C |
| Refractive Index | 1.434-1.438 |
| Flash Point | 60 °C |
| Solubility In Water | slightly soluble |
| Odor | mushroom-like, green |
| Melting Point | -62 °C |
As an accredited 3-Octen-2-ol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 3-Octen-2-ol is supplied in a 100 mL amber glass bottle with a secure screw cap, labeled with hazard symbols. |
| Shipping | 3-Octen-2-ol is shipped in tightly sealed containers, protected from light, moisture, and incompatible substances. It is handled as a chemical liquid, typically transported under ambient temperature. Compliant with relevant regulations, packaging is labeled appropriately to ensure safety during transit and storage. Shipping is usually via ground or air, depending on destination. |
| Storage | 3-Octen-2-ol should be stored in a cool, dry, well-ventilated area, tightly sealed in its original container. Keep away from sources of ignition, heat, and direct sunlight. Store separately from strong oxidizing agents and acids. Ensure container labeling is clear and compliant with regulations. Use chemical-resistant shelving and avoid storage at temperatures above room temperature to prevent degradation. |
Competitive 3-Octen-2-ol prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
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For decades, advances in chemical synthesis have powered industries from flavors and fragrances to industrial lubricants. Among the many building blocks shaping these innovations, 3-Octen-2-ol has earned a place as a functional and versatile ingredient. In our role as a chemical manufacturer, we draw on years of process optimization and quality control to ensure every batch of 3-Octen-2-ol we produce allows formulators and product designers to push boundaries, meet market demands, and maintain consistent results.
In our experience, attention to physical form and purity is crucial with 3-Octen-2-ol. We manufacture this material to deliver a clear, slightly viscous liquid at room temperature, thanks to a tightly controlled distillation and purification process. Our technical staff understands that precise control of stereochemistry and impurity levels makes all the difference in downstream applications, so we’ve invested in advanced instrumentation and analytics to validate every lot before it leaves our facility. This approach, anchored in deep technical knowledge, reduces the risk of off-odors or by-products that can impact the subtle aroma nuances and functional performance for which 3-Octen-2-ol is chosen.
Few molecules share the unique balance found in 3-Octen-2-ol—specifically, its cis and trans isomerism brings different odor notes and reactivity. Chemists and formulators often call this material the "mushroom alcohol," a nod to its rich, earthy, and slightly green aromas that can’t be replicated by simpler alcohols or alkenes. In fragrance composition, minor changes in isomer abundance may result in products which either evoke forest floors or transition towards lighter, apple-like tones. We’ve refined our synthetic routes to consistently achieve the desired ratio of these isomers, offering a performance margin many labs report as immediately noticeable in both odor threshold and composition longevity.
Comparison to more widely-used aliphatic alcohols, such as 1-octanol, highlights the step forward this molecule represents. Straight-chain primary alcohols lack the same degree of aroma complexity, yielding only a faint, waxy scent. This limits their value in fine perfumes, where 3-Octen-2-ol delivers the nuanced, “living green” effect so useful for recreating natural nuances in high-end products. For flavor applications, structural subtleties in the double bond and alcohol group dictate how the compound interacts with taste receptors and aromatic compounds from other ingredients. Our research and that of our food industry partners show that formulation with 3-Octen-2-ol can boost perception of freshness in herbal, vegetable, and even certain fruit profiles without overwhelming more delicate top notes.
We began scaling up production of 3-Octen-2-ol well before market demand peaked. Years of experience taught us that upstream variability in raw material quality and reaction conditions greatly affects both yield and final purity. By carefully selecting high-grade octenone and maintaining strict process controls, we stabilize the manufacturing window and minimize batch-to-batch drift. As a producer directly responsible for each step, we identify and eliminate sources of unwanted odors, color bodies, or off-flavors longer before packaging or downstream blending.
Large-volume customers often visit our site, surprised by the lengths to which we've gone for internal quality assurance. Dual-column distillation, vapor-phase analytics, and individualized batch tracking all play roles in keeping every container reliably within customer specifications. A few years ago, we faced a supplier-driven contaminant issue; we overhauled our procurement strategy to prioritize provenance and traceability. This hands-on approach ensures customers can rely on every shipment to function as intended, without downstream surprises.
The feedback from users of 3-Octen-2-ol is clear: process reliability supports product stability. Whether for aroma compound suppliers, food additive formulators, or even agricultural researchers, confidence in a consistent input reduces development time and production waste. Over time, savings achieved through process care and predictable outcomes outweigh any cost associated with a stricter operating protocol.
Direct users of our 3-Octen-2-ol have highlighted its adaptability. Fragrance blenders, especially those specializing in high-end or niche perfumes, appreciate the molecule’s ability to impart a natural impression that keeps finished blends lively and authentic. Some perfumers say this is the backbone behind forest accords, earthy woody notes, and the sharp freshness sought in many modern colognes.
Flavor formulators in the savory, vegetable, and green fruit segments rely on 3-Octen-2-ol for its ability to round out artificial flavor bases and enhance freshness. Our food-grade variant adheres to global regulatory standards for purity—an achievement made possible by rigorous internal controls. Food technologists describe improvements in sensory tests that extend beyond aroma: end consumers often report fresher-tasting products, even at low usage levels.
Research sectors and specialty chemicals also unlock value with 3-Octen-2-ol. This molecule serves as an intermediate in the synthesis of more complex natural products or targeted molecules, thanks to its selectivity and reactivity at both the alcohol and olefin sites. In controlled agricultural experiments, our clients have explored its influence as a semiochemical for pest-management strategies, testing the boundaries of what is possible at the intersection of nature and chemistry.
From our vantage, having supplied both this molecule and a range of aliphatic and unsaturated alcohols for years, a careful comparison distinguishes 3-Octen-2-ol’s contributions. Lower-chain alkenols, such as 1-Hexen-3-ol, produce fresh green grass notes but lack the deeper, earthy character and staying power in both aroma and functional blends. On the other end, longer-chain alcohols deliver fatty or soapy impressions, without the subtlety or flexibility for fine-flavor and fragrance blending.
Specialized secondary alcohols, including linalool, emit floral or citrus-like tones and interact quite differently in formulations. We see developers switch to 3-Octen-2-ol not just for a specific aroma, but for its ability to fill a sensory gap left by both short-chained and branched alternatives. Its double bond and placement of the hydroxyl group create a molecular “fit” that many others can’t match, optimizing for volatiles release and sustain.
Some customers compare their experiences with natural and synthetic 3-Octen-2-ol. Extraction from natural sources often introduces batch variability and high cost, and yields trace impurities affecting both performance and regulatory compliance. We’ve responded by refining our synthetic route, so our material offers high-purity, reproducible profiles at scale—a difference that translates into lower rejection rates and more robust product launches for our clients around the world.
We operate in an environment where accuracy matters. Market trends over the past five years have shown that brands and consumers ask more questions about sourcing, residual solvents, and full material disclosure. Our internal controls ensure every lot meets or exceeds the standards set forth by food safety authorities, fragrance regulations, and major international chemical guidelines. This diligence is not a marketing claim but a hard-won advantage supported by data from our own labs and external auditors.
There’s a clear trend favoring transparency across the supply chain. As manufacturers, we frequently assist customer regulatory teams with full traceability audits, impurity profiles, and sustainability reviews. Our response includes documentation covering not just materials themselves, but information on packaging, handling, and storage protocols. End users have access to a depth of technical and regulatory support that streamlines their own compliance checks.
Environmental questions have surfaced regarding the origin and fate of aroma chemicals used in various applications. We’ve begun integrating green chemistry principles into our 3-Octen-2-ol process, including solvent minimization and recycling, investments in closed-loop systems, and improved energy efficiency throughout the distillation stage. This isn’t just about reducing carbon footprint, but making sure that our production scales responsibly as the global demand grows.
Industrial reality shapes much of what we do. Operating a continuous system with 3-Octen-2-ol synthesis brings technical challenges—managing exothermic reactions, keeping air-sensitive intermediates away from contaminants, and optimizing purification protocols for both yield and final purity. Over the years, we’ve seen minor machinery calibration issues create measurable differences in odor profile. Experience taught us how to design preventive maintenance schedules, system redundancies, and ongoing staff training into every stage of production.
We welcome visits from partners and clients who want to see our approach firsthand. Tours serve as open forums to discuss batch variability, opportunities for co-innovation, and shared approaches to fit the molecule into new product classes. Transparent communication between manufacturing, sales, and end users has solved challenges none of us could have foreseen alone. For instance, one food ingredient partner needed unusually low volatilization for an export beverage. Our technical team re-evaluated temperature and catalyst parameters, and delivered an adaptively processed lot which passed both lab and consumer panels with flying colors.
Packaging 3-Octen-2-ol for global shipment raised practical hurdles, such as material compatibility and shelf-life in fluctuating climates. By experimenting with high-barrier drum linings and temperature-controlled logistics, our logistics team found a combination that kept the molecule stable and easy for customers to dispense even in remote destinations. These concrete, hands-on improvements keep waste low and user confidence high, upholding the feedback loop with clients rather than treating each shipment as a mere transaction.
Over the past decade, our partnerships have moved beyond simple supply agreements. We work closely with clients to identify bottlenecks, whether related to solubility in novel carriers, reaction compatibility in API synthesis, or long-term material stability in sensitive flavor matrices. These aren’t purely theoretical puzzles. In one notable example, a fragrance compounder approached us with poor allergen profiles using a competing source. After comparing headspace GC/MS and impurity spectra, we developed a screening protocol that filtered out specific by-products, giving them a competitive distinction in the “clean label” fragrance space.
Real-world challenges shape the way 3-Octen-2-ol gets used, especially as regulations tighten and product innovation speeds up. Fluctuations in input pricing, for instance, push our R&D group to look for new catalytic systems, or process recycling methods to keep downstream costs stable. The drive to “do more with less” benefited from open lines of communication with both customers and raw material suppliers. Fast iterations and transparent feedback give us a performance edge, both in technical excellence and business reliability.
Customer input drives adjustments in both our process and service models. Several years ago, confectionery research demanded ultra-low flavor thresholds in healthy snacks—something standard food-grade 3-Octen-2-ol ranges couldn’t always achieve. We spun up a pilot program to fractionate and blend batches with sensory panel feedback, refining odor and flavor purity stepwise until their development goals were met. The process was labor-intensive, but mutual learning fostered breakthroughs we now use in serving other innovative product developers.
We’ve watched trends shift toward more “authentic”, “natural”, and “transparent” ingredient lists. The origin and handling of molecules like 3-Octen-2-ol matter for consumer trust. Investments in scale, safety, and analytical rigor leave us better positioned to support ever more selective customer requirements. Internal development of analytical tools, including fast GC/MS, SFC, and electronic nose sensors, gives our team the confidence we need to stand behind our product and help customers achieve their target flavor or fragrance standards without compromise or waste.
Nothing matters more than knowing the materials we make help clients create memorable products and solve specific chemical puzzles where competitors fall short. Reputational capital grows every year from these small, well-documented successes. Our belief in a transparent, collaboration-first approach has driven innovation and productivity, building enduring relationships across industries as diverse as food, pharma, and personal care.
Our vision for 3-Octen-2-ol reaches years into the future. The specialty chemicals landscape continues to shift as digitalization, regulation, and social responsibility weigh more heavily on industrial decision-makers. We’ve started moving toward renewable-sourced feedstocks and green energy inputs, broadening our internal competencies to anticipate shifts in market and regulatory expectations. Real change comes slowly, especially at industrial scale, but every incremental step forward—whether higher yield, lower emissions, or faster cycle times—delivers value not only to our customers, but to our employees and communities.
New applications surface as end-users explore biobased polymers, precision fermentation, and even medical device coatings. With each new sector, the need for precise, reliable supply of 3-Octen-2-ol grows. We follow these emerging opportunities with both caution and ambition, making sure we’re ready to invest in capacity or change course based on customer feedback and eco-system needs. Our position as manufacturer lets us respond faster to specialty requests and keep the feedback loop active between R&D and users at the application level.
For most specialty chemicals, trust grows from daily discipline and honest engagement. We’ve become recognized not because of sheer volume, but through careful production, technical expertise, and the willingness to let results speak for themselves. For partners growing their portfolios, developing new markets, or simply requiring a steady supply of a best-in-class aroma ingredient, our commitment to quality and collaborative problem-solving with 3-Octen-2-ol will continue to shape positive outcomes and meaningful innovation for years to come.