|
HS Code |
916487 |
| Chemical Name | 6-Ethyl-2-naphthol |
| Molecular Formula | C12H12O |
| Molar Mass | 172.22 g/mol |
| Cas Number | 57551-68-5 |
| Appearance | White to off-white solid |
| Melting Point | 92-95°C |
| Boiling Point | 350°C (estimated) |
| Density | 1.15 g/cm3 (estimated) |
| Solubility In Water | Slightly soluble |
| Structure | Naphthalene ring with an ethyl group at position 6 and a hydroxyl group at position 2 |
| Iupac Name | 6-ethylnaphthalen-2-ol |
| Synonyms | 6-Ethyl-2-hydroxynaphthalene |
As an accredited 6-Ethyl-2-naphthol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 100 grams of 6-Ethyl-2-naphthol, tightly sealed, labeled with hazard warnings, batch number, and purity. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 6-Ethyl-2-naphthol: Typically loaded in 200kg drums, ~80 drums, totaling around 16 metric tons per container. |
| Shipping | 6-Ethyl-2-naphthol is shipped in tightly sealed containers, protected from light and moisture. It should be handled and transported according to relevant chemical safety regulations, including labeling for hazardous materials. Proper ventilation, temperature control, and secondary containment are recommended to prevent leaks or spills during transit. |
| Storage | **6-Ethyl-2-naphthol** should be stored in a tightly sealed container, protected from light, heat, and moisture. Keep it in a cool, dry, and well-ventilated area away from incompatible substances such as strong oxidizers and acids. Follow all safety instructions, including proper labeling, and ensure access to appropriate spill containment materials and personal protective equipment when handling or storing this chemical. |
| Shelf Life | 6-Ethyl-2-naphthol should be stored tightly sealed, protected from light and moisture; typical shelf life is about 2-3 years. |
Competitive 6-Ethyl-2-naphthol prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@boxa-chem.com.
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In daily work at the chemical plant, each batch and process step turns raw material into opportunity. Take 6-Ethyl-2-naphthol: after years at the reactor decks, I see how its unique properties support practical solutions in both specialty and mainstream manufacturing sectors. This compound, with its clear structure and consistent behavior, has proven value well beyond simple substitution. Every drum carries experience: from solvent choices to process pressure, hundreds of cumulative runs shape how we stabilize and deliver every kilogram.
6-Ethyl-2-naphthol, known for its crystalline solid form and pale hue, represents one of those compounds that stays versatile and reliable under diverse conditions. In daily production, its chemical signature—an ethyl group at the sixth carbon—gives a special combination of solubility and reactivity. We see strong demand from fragrance houses, dye intermediates, and agrochemical syntheses, all of them demanding not only purity but also process predictability. Its formula, C12H12O, lets formulators bridge aromatic chemistry challenges that other naphthol variants cannot always address.
6-Ethyl-2-naphthol stands out at several points in the production cycle. It has a melting point and flow characteristics uniquely suited for a range of downstream syntheses. This makes it easier to meter and blend without specialized warming equipment, avoiding sticking or irregular dosing that slows down scale-up lines. We’ve worked to eliminate color contaminants and side products—this isn’t always a given with similar naphthalene derivatives. Our control over crystallization and filtration provides a product that won’t clog feed lines or leave patches of impurity in finished goods.
Strong batch-to-batch consistency matters. Over the years, our continuous feedback from partner labs and R&D teams has led to modifications in the washing and drying stages. Several customers have moved from generic 2-naphthol sources after finding persistent off-component content that complicated separation and led to variable yields. By adopting tighter fractionation and purity audits at each step, our product meets those technical requirements for complex aromatic coupling reactions, halogenations, and even photo-stable pigment synthesis, where trace byproducts could spoil optical quality.
Having handled this material hands-on—wearing the same lab coat across scaling runs—specifications aren’t abstract. Our solid material arrives with a purity rating consistently above 99%, confirmed by HPLC and supported by independent third-party reference checks. The particle size distribution falls within well-defined micrometer ranges, allowing direct weighing or automated dosing into reaction flasks and bulk reactors.
Moisture levels and trace metallic contamination are managed tightly to avoid unpredictable side reactions, particularly for those in dye or API intermediate preparation. We monitor all outgoing shipments with repeat sampling to guard against batch variance. These controls support downstream consistency, letting users avoid last-minute process recalibration or wasted solvent washes.
Odor is another practical concern—one that shows up in both fine fragrance and industrial settings. With our upgraded vacuum drying and closed-system transfer, we keep aroma contamination well below actionable thresholds. Every production campaign finishes with FT-IR and GC fingerprinting, ensuring minimal low-boiling contaminants, which can otherwise accumulate and alter product properties over time.
In practice, no two aromatic compounds behave identically. Many formulators have asked about the difference between 6-Ethyl-2-naphthol and closely related naphthol isomers. Each brings its own reactivity and compatibility profile. The ethyl group at the sixth position in our compound improves organic solvent compatibility, making it dissolve more readily in both polar and nonpolar systems. This speeds up the introduction phase during multi-step syntheses, cutting time lost to incomplete mixing or persistent solids.
The higher melting point, compared to unsubstituted naphthols, also means more precise thermal control. During our production, we’ve seen less volatility during distillation and much lower off-gassing rates. That’s a big advantage when handling large-scale reaction vessels, where every fraction of a degree can influence yields.
From a stability standpoint, storage trials and customer returns show a clear difference. Our drums of 6-Ethyl-2-naphthol store cleanly for extended periods, even in warehouses with seasonal temperature changes. Supplemental desiccation is rarely needed. We’ve heard from coatings and pigment producers that alternate naphthol isomers have sometimes yellowed or agglomerated under less stringent packaging. Our tighter control, right from synthesis to drum closure, lowers the risk of these outcomes.
Over the past decade, large buyers have leveraged 6-Ethyl-2-naphthol in several core sectors. In fragrances, it anchors synthetic musk and animalic base notes thanks to its aromatic backbone. We know that each kilo has to hit strict odor benchmarks or the entire fragrance batch risks rejection. By keeping contaminants under control throughout production, our product avoids introducing off-notes.
For dyestuffs, the compound serves as an intermediate in azo coupling and oxidative reactions where group placement directly affects final hue and stability. Naphthol dyes based on this building block hold up well under light exposure and resist degrading during textile washing. Several partners have credited the robust color fastness to the high chemical purity we supply, bolstered by frequent pilot runs at their own sites with our product.
Agrochemical manufacturers, another cornerstone of our client base, have tapped into its potential when synthesizing key pre-emergence herbicides and growth regulators. The compound’s precise purity profile prevents uncontrolled side reactions in later steps. By minimizing unknown variables, plants can scale output without periodic batch failures.
Some specialty applications—photoinitiators, advanced polymers, and resin stabilizers—pull on its predictable aromatic structure. One partner in the imaging materials space reports that switching to our version of 6-Ethyl-2-naphthol reduced unwanted background artifacts and improved product shelf life by months. These aren’t isolated claims; we keep extensive collaborative logs with downstream R&D teams, ensuring transparency about performance and process nuances that might not show up on a typical datasheet.
Chemical synthesis rarely rewards rigid substitution. Over repeated development cycles, users have shown that 6-Ethyl-2-naphthol—specifically sourced from us—gives a combination of melting point, solubility, and process stability not found with 1-naphthol, 2-naphthol, or other substituted types. There’s less foam during addition, fewer byproduct peaks in the analytical traces, and greater compatibility with sensitive catalysts.
Not every batch from other plants measures up equally. Some suppliers overlook small details: inconsistent neutralization, uncontrolled filtration rates, or unexamined trace metallics. Over time, these shortcomings turn up in buyers’ rework hours and scrap rates. By maintaining close oversight, we keep these headaches off your process sheets. For example, one major coatings group flagged recurring discoloration when they used non-ethyl-substituted materials at their offshore site; with our 6-Ethyl-2-naphthol, stability and tone lock in.
Handling and storage also benefit from these differences. Where other naphthol products might clump or absorb moisture after sitting a few weeks, this material remains free-flowing and stable. No need to break up chunks or filter out unexpected crystal growth before metering into a reactor. This reduces downtime and prevents contamination in high-throughput environments.
Smoothing out new product lines always combines the technical and the hands-on. Every year brings dozens of trials for new customer requirements, with each customer bringing their own unique twist—stringent controls for purity, packaging tweaks to avoid static buildup, or customized melt profiles for unusual process needs. Rigorous quality management sits behind those efforts. Our in-house lab techs run not just routine purity checks but tailor their analysis for potential off-path reactions specific to the end use.
I’ve handled every major phase of the process: sourcing raw aromatics, running liquid-phase alkylation, washing, recrystallizing, vacuum drying, and even loading out to tankers and drums for both export and domestic partners. Lessons from feet-on-the-ground production show that small changes—choice of solvent, filter rating, drying curve—shape the long-term reliability. Years of issue logs and continuous operator feedback lead to practical adjustments in reactor agitation speeds and transfer vessel configuration, always in the service of consistency.
It’s not just lab data or certificates on a wall. When a downstream user reports a sudden lab result deviation, it isn’t dismissed. Instead, we re-run reference syntheses using retained sample lots, tweaking inputs until the outcome lines up. On several occasions, close joint investigation between our technical team and the customer resolved those rare but impactful outliers—a testament to visible, traceable adjustments rather than generic stock answers.
Beyond core chemistry, sustainability counts. Our facility works toward minimizing solvent emissions and maximizing waste recovery. Closed-loop systems, solvent recirculation, optimized energy usage—all factor into a finished product that meets international compliance without driving up cost or complexity. Down the line, this means customers avoid potential audits, regulatory headaches, or negative environmental scorecards tied to questionable origins.
Through direct feedback loops, we pinpoint where minor process improvements mean major sustainability gains. Case in point—after careful monitoring, the installation of a secondary condensation unit dropped our atmospheric VOC count, helping to meet stricter air quality standards. Energy loads per process unit are tracked weekly, and we rely increasingly on local renewable sources to power non-critical stages of production, further boosting the long-term outlook for both us and our partners.
Responsibility doesn’t end with the fence line. Every outbound drum and container receives final inspection: tamper-evident sealing, secure labeling, and documented chain of custody. Each shipment’s road or rail path is mapped according to best current logistics practices, with contingency plans for prompt recalls or route changes if needed. We stay in constant touch with both logistics providers and end users, ensuring everyone remains updated about transit time or potential delays.
Seasoned buyers know the difference that tight controls, open communication, and documented reliability bring to industrial settings. Over decades in this business, our team has built trust through solving both straightforward and stubborn challenges—never handing off problems, but working with users until a practical fix emerges.
Annual reviews and periodic visits to partner facilities keep us grounded in the realities of factory floors. Sometimes process lines evolve; sometimes formulation standards tighten. In these situations, the value of direct technical exchange—sharing detailed batch logs, cross-referencing user observations, reconstructing bench syntheses—cannot be overstated. This approach ensures that each drum of 6-Ethyl-2-naphthol we ship reflects not just stated specifications, but the hands-on capabilities and proven outcomes buyers rely on.
As chemical processes grow more complex and application windows narrow, having a manufacturer who listens, runs reference tests, and stands behind every shipment gives our partners a practical edge. Reliability, traceability, and open expertise drive improved performance for everyone using 6-Ethyl-2-naphthol year after year.
Process improvements come from experience and from shared time at the bench. We’ve long since moved past minimum viable standards; everything from multiple solvent passes to extended monitoring of key intermediates helps us keep margins tight and results consistent. Technical improvements—like microfiltration, in-line purity monitoring, advanced crystallization sequencing—came about from hundreds of hours solving real processing issues.
We avoid chasing fads or speculative substitutions. Instead, practical routine audits anchor our promise: every campaign run follows step-by-step logs, and deviations become lessons for future protocols rather than notes to ignore. That way, new lots pick up where the last left off, learning from each both good and bad.
Investments in analytical capability have let us spot process drift before it turns into supply risk. Tools like GC-MS, LC-MS, NMR, and UV-Vis give deeper insight than historical IR spot checks, letting us forecast downstream compatibility and flag small variances before they affect user yield, color, or purity.
One of the biggest strengths in manufacturing isn’t just technical skill—it’s the capacity to listen. Year-round, we gather direct input through user site visits, calls, and digital logbooks. Our approach builds transparency: process tweaks, packaging feedback, recommendations for alternative solvents, or advice on downstream handling find their way back to our synthesis groups.
Every so often, a user’s team faces an issue that’s new even to us—anomalous GC peaks, reactivity slopes that don’t line up with old experience, unexplained storage color changes. Instead of sidestepping or blaming the supplier, we treat these as shared problems. Piloting modified batches, running alternative purifications, trialing new stabilizer loads—these efforts feed improvements not only for that user but for future batches.
No manufactured product can promise perfection on paper alone. Our product reflects the accumulated knowledge of years of learning, adjusting, and responding as the market and customer needs shift. Each decision, from raw material sourcing to final QC checks, tracks the goal of real-world usability, reliability, and quality that translates to the bottom line for end users and partners.
After countless production cycles and collaborative problem-solving, what distinguishes our 6-Ethyl-2-naphthol is not a static attribute but a process rooted in engagement and adaptation. Backed by reliable logistics, technical support, and transparent batch records, we forge relationships that last beyond a single sale. Our experience shows that by investing in better methods, listening to day-to-day challenges on the user side, and refusing to compromise on consistency, every batch leaves our facility ready to deliver value well beyond its drum or tote.
As markets shift and synthetic requirements tighten, our sights stay grounded in solid experience and real feedback. By focusing on what end users need today—and are likely to need as application windows evolve—we deliver more than a product; we deliver a reliable partnership for each stage of the product’s life. Those who work with us see the benefit every time their production line runs smoother, their colors lock in, their fragrances avoid off-notes, or their downstream audits pass on the first try.
