© 2026 Sinochem Nanjing Corporation,
All Right Reserved
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HS Code |
522964 |
| Cas Number | 4747-77-1 |
| Molecular Formula | C10H16O |
| Molecular Weight | 152.23 |
| Iupac Name | 3,7-dimethylocta-1,6-dien-3-ol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Floral, woody, fresh |
| Boiling Point | 224-226 °C |
| Density | 0.871 g/cm3 |
| Solubility In Water | Insoluble |
| Refractive Index | 1.476-1.480 |
As an accredited Dehydrolinalool factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Dehydrolinalool is packaged in a 500 mL amber glass bottle with a secure screw cap, labeled with hazard and safety information. |
| Shipping | Dehydrolinalool is shipped in tightly sealed, chemical-resistant containers, typically under ambient conditions. Packaging complies with relevant safety regulations to prevent leaks or contamination. Proper labeling, including hazard identification and handling instructions, is provided. Transport follows local and international guidelines for non-hazardous chemicals. Avoid exposure to extreme temperatures and direct sunlight during transit. |
| Storage | Dehydrolinalool should be stored in a tightly sealed container, away from heat, light, and sources of ignition. It should be kept in a cool, dry, and well-ventilated area, separate from incompatible substances such as strong oxidizers. Proper labeling and precautions to prevent moisture entry are essential to maintain stability and prevent degradation or hazardous reactions. |
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Purity 98%: Dehydrolinalool 98% purity is used in fine fragrance formulations, where it provides enhanced olfactory clarity and longevity. Stability Temperature 120°C: Dehydrolinalool with stability up to 120°C is used in high-temperature cosmetic processing, where it maintains fragrance integrity during manufacturing. Optical Purity ≥ 95%: Dehydrolinalool with optical purity ≥ 95% is used in chiral synthesis for flavor intermediates, where it ensures consistent stereo-selective reactions. Molecular Weight 154.25 g/mol: Dehydrolinalool at 154.25 g/mol is used in pharmaceutical intermediate production, where it achieves precise molecular integration and minimal by-product formation. Boiling Point 216°C: Dehydrolinalool with a boiling point of 216°C is used in heat-activated air fresheners, where it enables prolonged and controlled fragrance release. Viscosity 4.2 mPa·s: Dehydrolinalool at 4.2 mPa·s viscosity is used in liquid detergent formulations, where it offers optimal blending and dispersion. Refractive Index 1.464: Dehydrolinalool with refractive index 1.464 is used in analytical reference materials, where it ensures optical consistency for calibration purposes. Volatility High: Dehydrolinalool with high volatility is used in top-note perfume blends, where it delivers rapid aroma diffusion and immediate scent perception. Water Solubility 0.12 g/L: Dehydrolinalool with water solubility 0.12 g/L is used in emulsified skin care products, where it provides controlled fragrance release with minimal phase separation. Flash Point 93°C: Dehydrolinalool with a flash point of 93°C is used in aerosolized room sprays, where it contributes to safe handling and storage. |
Competitive Dehydrolinalool prices that fit your budget—flexible terms and customized quotes for every order.
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Dehydrolinalool pulls its weight in the world of fragrance ingredients, offering creative professionals and industrial chemists a unique tool they lean on time and again. Scent isn’t just a matter of taste or personal pleasure; it’s wrapped in our very identities and daily routines, from the soaps in the shower to the perfumes we trust for big moments. Most know linalool as a go-to floral note, with rare power to freshen up spaces and bottles. Dehydrolinalool goes a step further, carving out an olfactory identity with its sharper, more persistent character. This isn’t just a technical tweak—its impact touches both product designers excited by bold new notes, and industries needing reliability in high-stress formulations.
Having worked with aromatic compounds in both research and applied settings, I’ve learned that tiny changes in molecular structure can change everything downstream, from how a scent sticks to skin, to how a formula holds up in harsh environments. Dehydrolinalool delivers something few other materials can—a citrus-peel brightness with greener, resinous twists. The more I blend it, the more I see this note stand up in modern colognes and sophisticated household care, especially where innovators want an edge over typical floral or citrus blends. Chemically, it provides resistance to oxidation and heat, which matters when you need a formula to work outdoors, under bright store lights, or after months in storage. These reliability perks have put it firmly in the toolkits of formulators for years.
Dehydrolinalool isn’t just another tweak on the terpene family tree. Where older linalool-based products stick to tradition, this one breaks the mold. You get a molecule that’s climbed out of linalool’s shadow, both in lab tests and in real-world applications. That leap carries a story many other molecules can’t tell, having come about through a push for improved sustainability and odor performance in the global supply chain.
From my background in sensory analytics, sourcing high-purity aroma chemicals can throw up headaches—batch inconsistencies, unpredictable price changes, and those dreaded supply gaps. Dehydrolinalool sidesteps much of this uncertainty, especially if the supplier takes care to meet international purity standards. The molecule’s stability during processing also makes it a top pick for producers who need each batch to match, whether it’s destined for fragrance, flavor, or technical uses.
For professionals who care about the details, Dehydrolinalool shows a measured refractive index in the range that confirms its structure—sharp-eyed chemists recognize a properly balanced alcohol group and a robust carbon backbone. I’ve seen formulators demand those numbers for good reason; without the right specs, quality slips and so do customer reviews. The product pours clear, colorless, and leaves no oily residue, which means less adjustment during those fast-paced production runs. Its boiling point rules out use in heat-sensitive blends, but opens up doors in applications like detergents, air care, and automotive use where lasting performance trumps subtle, top-note delicacy.
It’s easy to overlook the behind-the-scenes work that goes into meeting these tight specs. I remember the hours spent calibrating instruments, checking purity levels, and spotting tiny deviations in batches. Producers who choose Dehydrolinalool know they’re pulling from a well-documented stream with transparency in place, and that consistency builds trust from lab to final product on the shelf.
Dehydrolinalool shows its character best in the hands of those who like to push boundaries. In fine fragrances, it elevates blends by amplifying freshness and adding a dewy, green layer that leaves a stronger impression than classic linalool. Brands embracing bolder, genderless scents reach for this molecule: its resilience cuts through complex compositions and holds steady, even in humid or hot climates.
Stepping outside perfumery, the ingredient supports cleaning products, air fresheners, and even personal care items formulated for active lifestyles. Longer-lasting scents win praise from users and give marketers genuine stories to share. Having seen a handful of launches fail because the scent faded too fast, I appreciate a material that stands its ground, letting products live up to their claims. Manufacturers also get peace of mind thanks to its low volatility under normal storage—meaning warehouses won’t end up filled with weak-smelling inventory.
In household and industrial cleaners, its extra punch in the olfactory department covers up harsh base odors better than the competition. From laundry liquids to floor polish, a touch of Dehydrolinalool keeps things fresh hours after use. Some even aim for a green label, pointing to its streamlined production and traceability—something sustainability officers now bring up in every boardroom I’ve seen.
I’ve spent enough time comparing analogs to know that not all molecules are created equal. Dehydrolinalool differs from plain linalool in scent profile, chemical endurance, and its ability to play well with others in tough blends. Old favorites like linalool offer that familiar lavender-citrus hit, but lose steam fast in many environments. Dehydrolinalool’s structure gives it muscle, so its note holds on through high temperatures, pH swings, and exposure to air.
This extra backbone pays off for manufacturers. I’ve watched costs creep up as companies compensate for scent fade by overdosing weaker ingredients. With Dehydrolinalool in the mix, less is more. Its high impact lets formulators use a lighter touch, stretching budgets and minimizing waste. Supply chains breathe a little easier, too.
Unlike more volatile terpenes, it doesn’t ghost the moment a bottle opens. Product testers in the field notice the difference immediately. Brands that invest in Dehydrolinalool tend to see higher satisfaction rates and fewer returns based on scent complaints. That’s the sort of feedback that strengthens business partnerships over time.
Trust in any raw material starts with where and how it’s produced. The purity of Dehydrolinalool makes or breaks entire product lines. Inferior batches not only spoil fragrance; they can seed longer-term supply chain headaches. In my years crossing between formulation and quality control, I’ve seen departments lose months chasing down off-odors and complaints that trace back to sub-par lots. Tight controls and transparent sourcing keep these risks at bay.
Suppliers running modern, well-documented synthesis methods—rather than relying on catch-as-catch-can natural extracts—can deliver a more stable material. This science-forward approach gives peace of mind. In the world of regulatory compliance and consumer trust, documentation, batch analysis, and traceability aren’t just nice-to-haves. They’re non-negotiable. Companies using Dehydrolinalool avoid regulatory headaches, while still providing consumers with a clean, honest product.
Sustainability in aroma chemicals sometimes means tradeoffs, but Dehydrolinalool has been a favorite for companies seeking a smaller footprint. Sourced and manufactured using less energy-intensive processes, it answers a growing demand from customers who read labels and ask hard questions about origins. Having worked with both traditional and “green” chemistries, I’ve seen firsthand how much pressure falls on procurement managers to balance performance with environmental impact.
With Dehydrolinalool, brands don’t have to pick between efficacy and ethics. Even the packaging tells a story: less hazardous waste, better recyclability, and fewer transport restrictions make it easier to keep a sustainable promise without bloating the bottom line. This shift isn’t just about marketing or moving units—stakeholders want action on climate, and materials like Dehydrolinalool make realistic progress possible across a surprising range of industries.
Innovation never runs smooth. New aroma compounds, no matter their promise, face skepticism from seasoned formulators and brand managers haunted by memories of failed launches. Dehydrolinalool met some pushback at first; traditional noses worried about its sharper tonality and less familiar scent wheel placement. Some users associate freshness with comfort, and too much change risks a cold shoulder.
Industry events now feature workshops highlighting what Dehydrolinalool brings to modern perfumery—not as a threat, but as a chance for new sensory stories to unfold. I’ve sat in on focus groups where participants respond with surprise, even delight, once they realize this added edge doesn’t overpower but rather refreshes the scent. Overcoming hesitation comes down to evidence and experience. Lab demos, test batches, and user feedback sessions show the proof. And as younger audiences keep demanding novel, gender-fluid scents, innovation outpaces nostalgia every season.
Price can be an obstacle. While Dehydrolinalool often costs more than standard linalool upfront, the higher impact and lasting strength mean less product used over the lifecycle. Savvy operators run the numbers and see value in shifting even legacy formulas toward this ingredient. On the brand side, unique signature notes help justify premium positioning, something I’ve worked on in advisory roles for startups and multinationals alike.
Early education speeds up new ingredient adoption. Chemists, perfumers, and production staff need hands-on training to handle Dehydrolinalool’s strengths and quirks. During transition phases, some formulators blend old and new to get buying teams and consumers comfortable. These pilots, followed by careful performance monitoring and customer response analysis, show whether and how products need tweaking—much easier with a stable compound that plays nicely at various concentrations.
Having a supportive supply chain partnership helps, too. Trusted distributors and experienced technical staff answer tough questions on process compatibility, safety, and regulatory compliance. Clear documentation, fast sample shipping, and technical troubleshooting make life easier for teams under pressure to hit launch deadlines without unexpected surprises. The feedback loop between producer and brand becomes faster, tighter, and more trustworthy with every successful batch.
In collaborations I’ve observed, teams moving to Dehydrolinalool report fewer manufacturing hiccups and easier troubleshooting when rare batch issues appear. It doesn’t require constant reformulation or second-guessing, freeing up talent to focus on creative product design and marketing. Marketing teams build more compelling narratives as well, leaning into the unique notes and traceable sourcing, which resonates with an increasingly ingredient-savvy customer base.
Switching to higher-functioning aroma chemicals isn’t just an industry trend or branding exercise—it impacts people’s daily lives. Products last longer, work better, and deliver on promises. In my experience reviewing customer surveys and returns, top complaints about fresheners and cleansers always involve scent: too weak, too generic, too quickly gone. Dehydrolinalool addresses these pain points from the ingredient level up. That reliability translates into better reviews, more loyal consumers, and, ultimately, stronger brands.
Businesses, too, get more breathing room. Lowered risk of off-batches, longer shelf lives, and greater compatibility with other ingredients make everyday operations smoother. As more consumer safety rules roll out worldwide, having a compliant and well-studied aroma chemical futureproofs products for export and regulation shifts. Teams don’t get caught flat-footed by recall scares or shifting guidelines, which protects bottom lines and jobs.
Fragrance development has always traced the arc of culture. As tastes change, new molecules like Dehydrolinalool grab the attention of leaders looking to modernize their lines. Younger buyers reject “same-old” profiles, and the market sees booming interest in natural-inspired notes that don’t cost the earth. Makers respond by leaning into compounds that can make a strong statement, support green claims, and keep up with the rising tide of ingredient transparency.
In meetings and focus groups, I keep seeing a new breed of product developer: people who question everything and demand data, but who also get excited by little shifts in chemistry that change the way a product feels and smells. Dehydrolinalool sits at the intersection of performance and inspiration, straddling new frontiers in both fragrance and functional products. That means more honest conversations between brands and buyers, and a sharper competitive edge for those able to move fast with reliable inputs.
We’re living in an era where data matters as much as tradition. The best responses come from brands who look both ways before making a big change—acknowledging the comfort of the familiar, but reaching for innovation that meets real-world needs. Dehydrolinalool delivers on both fronts, creating fresh starts without cutting ties to the best parts of the past.
Dehydrolinalool’s journey isn’t complete. As consumer needs shift and scientific capabilities grow, so does demand for versatile, sustainable ingredients that don’t cut corners on quality. Brands steadily rise to the challenge, driving demand for new blends, clearer sourcing, and more responsive customer service. People want to know what’s in the air they breathe and the products they use on their bodies and homes.
Education remains key. Workshops, open-source data, and partnerships with universities expand understanding and lower barriers for emerging brands and young talent eager to shape the future of fragrance and cleaning chemistry. Mentorship from seasoned chemists and marketing pros ensures knowledge passes down, avoiding old mistakes and accelerating progress.
Transparency, once seen as a marketing buzzword, now forms the backbone of trust. Companies betting on Dehydrolinalool and similar next-generation ingredients invest as much in open dialogue as in technical performance. From ingredient listing to consumer-facing education, everything threads back to an open conversation on quality, safety, and environmental impact.
Working with Dehydrolinalool pulls back the curtain on what progress in aroma chemistry looks like. It fills a vital gap between legacy ingredients and tomorrow’s demands. My experience across industry and academic settings points to a common theme: companies and consumers alike win when a product can be trusted to work, stand out, and support a wider mission of responsibility.
This compound reflects the industry’s pivot toward solutions, not just scents. It proves you don’t have to settle for halfway measures to balance performance, safety, and sustainability. The communities building tomorrow’s brands, fragrances, and cleaners need ingredients that encourage risk-taking without raising risk. Dehydrolinalool, with its sensory power and real-world toughness, isn’t just another option—it’s a statement about what matters most as we move forward.
