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All Right Reserved
|
HS Code |
925950 |
| Name | Octan-2-one |
| Iupac Name | Octan-2-one |
| Molecular Formula | C8H16O |
| Molecular Weight | 128.21 g/mol |
| Cas Number | 111-13-7 |
| Appearance | Colorless liquid |
| Boiling Point | 173-175 °C |
| Melting Point | -40 °C |
| Density | 0.824 g/cm³ |
| Refractive Index | 1.417 |
| Flash Point | 61 °C |
| Odor | Fruity, banana-like |
| Solubility In Water | Slightly soluble |
As an accredited Octan-2-One factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Octan-2-One, 500 mL, supplied in an amber glass bottle with a tightly sealed cap and cautionary hazard labeling for safety. |
| Shipping | Octan-2-One (also known as 2-Octanone) should be shipped in tightly sealed containers, away from sources of ignition, heat, and oxidizing agents. Transport in accordance with local, national, and international regulations for flammable liquids. Ensure proper labeling and provide safety data sheets. Store in a cool, well-ventilated area during transit. |
| Storage | **Octan-2-one** should be stored in a tightly closed container in a cool, dry, and well-ventilated area away from sources of ignition, heat, and direct sunlight. Keep it separate from strong oxidizing agents and acids. Use grounded, flame-proof storage if in bulk. Ensure proper labeling, and keep out of reach of incompatible materials and unauthorized personnel. |
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Purity 99.5%: Octan-2-One Purity 99.5% is used in fragrance formulations, where it ensures a clean and consistent olfactory profile. Boiling Point 171°C: Octan-2-One Boiling Point 171°C is used in flavor synthesis, where it promotes controlled evaporation rates during processing. Molecular Weight 128.21 g/mol: Octan-2-One Molecular Weight 128.21 g/mol is used in organic synthesis laboratories, where it enables predictable reactivity in ketone-based reactions. Low Water Content <0.1%: Octan-2-One Low Water Content <0.1% is used in pharmaceutical intermediates, where it minimizes hydrolytic degradation of sensitive compounds. Viscosity 0.72 mPa·s: Octan-2-One Viscosity 0.72 mPa·s is used in industrial coatings, where it facilitates uniform film formation and smooth application. Stability Temperature up to 60°C: Octan-2-One Stability Temperature up to 60°C is used in cosmetic emulsions, where it preserves performance during storage and handling. Flash Point 54°C: Octan-2-One Flash Point 54°C is used in cleaning solvent blends, where it enhances safety by reducing flammability risks. Refractive Index 1.414: Octan-2-One Refractive Index 1.414 is used in optical cleaner formulations, where it ensures streak-free and high-clarity surfaces. |
Competitive Octan-2-One prices that fit your budget—flexible terms and customized quotes for every order.
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Octan-2-One occupies a unique place within the landscape of high-value specialty chemicals. I remember the first time Octan-2-One came across my desk—a shipment intended for a pilot program in a fragrance laboratory. Its impact on not only the scent industry, but also pharmaceuticals and research applications, opened my eyes to its scope and versatility. The product’s molecular structure, specifically the ketone backbone flanked by a medium-length alkyl chain, delivers a combination of reactivity and form that sets it apart from mainstream linear ketones.
Octan-2-One offers a molecular approach that bridges the gap between lighter ketones, such as butanone or pentanone, and heavier ones that tend to linger or overpower in formulations. Instead of chasing volatility or fleeting aromas, Octan-2-One neatly fits into applications needing reliable olfactory notes and controlled reactivity. Its boiling point lands in the mid-range, allowing for safe handling and predictable evaporation rates—a factor that fragrance developers often seek. In my discussions with chemists and product formulators, many pointed to Octan-2-One’s balance of stability and performance across a wide pH range. I’ve seen firsthand how a stable substrate can dramatically cut down troubleshooting time in large-scale production.
In terms of form, Octan-2-One appears as a clear liquid at room temperature, sporting a subtly sweet, almost waxy aroma. For many, this is not merely a byproduct but the foundation for its broad adoption in fields ranging from fine fragrances to complex flavor compounds. The capacity to blend without overpowering or muddying other ingredients gives formulators better creative control. Because Octan-2-One’s purity levels can reach upwards of 99%, manufacturers feel more confident about batch consistency and downstream results.
The impact of Octan-2-One ripples through multiple sectors. In perfumery, the substance features as a mid-note builder—a way to introduce smooth, long-lasting undertones in high-end colognes and perfumes. I have worked with a perfumer who relies heavily on Octan-2-One for its ability to stitch together delicate floral components and deeper woody bases. He once explained that few ketones deliver a similar sense of continuity in scent evolution, making Octan-2-One an essential part of his creative toolkit.
On the flavor side, Octan-2-One carries a gentle, almost buttery mouthfeel, which has, over time, made it a mainstay in bakery and dairy profiles. Food chemists have noted its synergistic response when combined with vanilla or chocolate-based flavors. This nuanced effect results from careful molecular interaction, not brute force concentration. Sitting with a team of product testers, you taste the subtle richness that Octan-2-One can introduce without overwhelming primary notes. Food-grade Octan-2-One undergoes stringent quality checks to meet safety standards, an important factor for anyone seeking regulatory compliance in finished goods.
Pharmaceutical research draws on Octan-2-One for syntheses involving complex molecular scaffolding. Lab notes tell of its moderate reactivity and the way it resists unwanted side reactions in condensation and addition protocols. Over coffee with an organic chemist, I heard stories about how Octan-2-One had cut waste by minimizing byproducts in her bench work. Medications requiring stable intermediates often benefit from this predictability, especially when scaling up beyond laboratory glassware.
Industrial cleaning products represent another area where Octan-2-One’s solvency and volatility balance pay dividends. Janitorial supply specialists choose it to help dissolve sticky residues without strong odors or toxic residues. Regular users, from floor-care crews to process engineers, appreciate that it evaporates cleanly, leaving surfaces clear and residue-free. This isn’t just a case of chemical compatibility—it translates into shorter drying times and a measurable boost in worker satisfaction.
Materials science and polymer applications have also tapped into Octan-2-One’s value. It acts as a processing solvent, smoothing the path for otherwise stubborn polymers to reach solution-phase or supporting thin-film deposition processes. My experiences touring composite manufacturing shops highlighted how reducing waste and improving surface finish quality ties back to smart solvent selection. Octan-2-One’s role here boils down to effectiveness without the baggage of harsh odors or environmental concern.
Many might wonder about Octan-2-One’s point of separation from the crowded field of ketone solvents. In practical terms, its performance differentiates itself on three main fronts: purity, stability, and scent neutrality. Take methyl ethyl ketone—widely used for decades, strong and effective, but its sharp smell restricts its use in delicate product lines. Octan-2-One avoids this sensory punch, sliding in as a contender in high-end and sensitive production. Technical managers I’ve spoken to reference the trouble with lower-purity ketones, where impurities show up as coloring or off-odors in final products. Octan-2-One’s purification process keeps impurities at bay, bringing predictability batch after batch.
Safety also enters the picture. Compared to acetone or cyclohexanone, Octan-2-One walks a gentler line. It offers a modest flashpoint, lowering the risk profile on the production floor and during transport. This practical benefit stands out for regulatory teams and insurers, as lower risk often translates directly to cost savings and streamlined approvals. My past experience auditing supply chains has shown that this kind of built-in reliability doesn’t just lower risks—it builds long-term trust with clients and partners.
In specialty chemical supply, speed of delivery and shelf stability matter. I spent years tracking costly waste due to short shelf lives and volatility losses. Octan-2-One’s resistance to breaking down means fewer discarded materials and lower inventory risk—a real plus for companies who measure efficiency by the barrel. This ties into its strong position as a go-to compound for firms looking to balance performance against operational headaches.
Expertise in evaluating Octan-2-One’s qualities comes from the people who use it day in and day out. Over years spent consulting with lab managers and production technicians, I’ve gathered feedback on repeat performance: batches running reliably from 5 kilograms up to multi-ton quantities, always aligning closely with stated specs. These professionals rely on hard data from analytical reports—purity, reactivity, and product stability—each time barrels arrive at their facilities. Feedback echoed across industries affirms that Octan-2-One fills a gap that general-purpose ketones leave open.
Documentation and compliance play central roles. Product developers know that confirmed absence of heavy metals or unwanted residual solvents means smoother acceptance in regulated markets. Companies operating under GMP or ISO regimes trust Octan-2-One for its documentation trail—COAs and technical dossiers arrive complete and on time. Drawing from my compliance background, I find that this transparency signals a supplier’s commitment not only to customers but to a broader sense of responsibility within the industry.
Trust builds slowly in specialty chemicals. Early adopters of Octan-2-One can pinpoint the reduction in process variability and plant downtime. I recall an incident where another ketone’s unpredictable impurities forced an entire reevaluation of a fragrance’s stability formulation. With Octan-2-One, batches held strong across multiple production cycles, sparing the quality assurance team endless headache. This kind of reliability lies at the heart of why companies stick with what works.
Growing concern about environmental impact has put specialty chemicals under the microscope. Octan-2-One answers this call in several important ways. With a comparatively low vapor pressure, emissions fall below critical thresholds, helping companies meet ever-tightening air-quality regulations. I’ve worked alongside environmental officers who increasingly value this characteristic, noting that compliance headaches can delay product rollouts and rack up unexpected fines.
The drive for responsible sourcing also plays a role. Suppliers offering Octan-2-One regularly disclose supply chain data, showing traceable origins and responsible manufacturing steps. Unlike legacy solvents still being phased out due to environmental persistence or toxicity, Octan-2-One fits into a forward-thinking sustainability strategy. This isn’t just box-ticking—many clients demand real evidence of low-impact production and greener operations. Cleaner chemistries go a long way toward earning both regulatory and consumer acceptance, and the market has started rewarding those willing to put in the work.
Waste disposal and post-use outcomes count as well. With rare stability under typical atmospheric conditions, Octan-2-One avoids many of the headaches commonly attached to managing volatile organic compound surpluses. In plant tours, it’s common to see secondary containment and evaporation controls built for older solvents. With Octan-2-One, plant operators report fewer accidental releases and lower cleanup costs.
Despite Octan-2-One’s many strengths, adoption isn’t automatic. New entrants face skeptical production leads wary of switching core ingredients. In my experience, successful transitions often start with small-batch test runs, giving teams space to compare Octan-2-One’s output against legacy solvents. Change management has to involve everyone from procurement to frontline operators. Establishing clear reporting protocols, monitoring real-time outcomes, and opening dialogue with chemical engineers supports smoother adoption.
Cost considerations matter, especially for mid-sized enterprises. Some find Octan-2-One’s price point above the lowest market alternatives, at least in the short term. That said, most of the cost is offset by lower rework, waste, and downtime. Finance teams tracking total cost of ownership have repeatedly confirmed that the modest premium pays off through fewer lost batches and happier production teams.
Supply continuity sometimes comes up in conversations with global companies used to long-haul shipments and variable schedules. Solutions here lie in building closer partnerships with trusted suppliers and engaging early on bulk order planning. The trend toward just-in-time inventory raised new challenges industry-wide, but Octan-2-One’s shelf-life and transit stability support a robust logistics approach for those willing to coordinate closely.
Innovation often grows out of strong building blocks. Octan-2-One’s molecular architecture offers researchers room to experiment—its moderate polarity and reactivity sit at a sweet spot for new molecule development. Working with university chemists, I’ve seen novel uses emerge in advanced lubricants and next-gen adhesives. Each year brings another wave of interest from startups seeking to leverage its unique profile.
Being able to adapt old processes to more modern, environmentally responsible solvents builds not just better products, but better workplaces. Workers report lower symptoms of fatigue and irritation compared to harsher solvent regimes. The downstream impact—lower absenteeism, higher morale—turns out to deliver real business value on the factory floor. Health and safety gains feed back into higher-level productivity and employee retention that no spreadsheet can fully capture.
Consumer preferences also factor in. Today’s shoppers look for cleaner labels and transparent sourcing. Finished products incorporating safer, well-documented components stand out on shelves and drive home brand loyalty in competitive retail markets. I’ve spoken with marketing professionals who use Octan-2-One’s safety credentials as a differentiator in product launches.
On the research front, academic labs have started publishing new catalytic methods that take advantage of Octan-2-One’s unique reactivity. Graduate students cite its predictability and ease of use in synthesizing intermediates for active compounds. The university-industry collaboration has become a two-way street, pushing boundaries in both directions.
Octan-2-One remains more than a commodity—a fact borne out by years of reliable service in critical applications. Its specific molecular quirks create opportunities for all who need more from their chemicals: better consistency, less hassle on the line, fewer headaches in the lab. My experience has taught me that in a world obsessed with marginal gains and unrelenting deadlines, cleaner, smarter inputs make all the difference.
The conversation shouldn’t end with what Octan-2-One can do on paper. It should continue with how real users put it to work, how it fits into bigger goals for sustainability and performance, and how it continues to shape broader industrial progress. By demanding more from each molecule—on safety, sustainability, and results—the future holds promise for those willing to make careful, evidence-based choices.
For those ready to step up, Octan-2-One presents a ready pathway toward these goals. Its service record and industry trust speak louder than any marketing copy or spec sheet. Whether you are formulating next-generation scents, pioneering new flavors, scaling pharmaceutical syntheses, or refining manufacturing with cleaner solvents, Octan-2-One stands ready as a proven partner in progress.
