|
HS Code |
978121 |
| Productname | b-Naphthol-ethyl ether |
| Casnumber | 93-18-5 |
| Molecularformula | C12H12O |
| Molecularweight | 172.23 g/mol |
| Appearance | White to light yellow crystalline powder |
| Meltingpoint | 54-56 °C |
| Boilingpoint | 290-292 °C |
| Solubilityinwater | Insoluble |
| Density | 1.1 g/cm³ |
| Flashpoint | 160 °C |
| Purity | ≥98% |
| Synonyms | 2-Ethoxynaphthalene, β-Naphthol ethyl ether |
| Storageconditions | Store in a cool, dry place |
| Refractiveindex | 1.608 (at 20 °C) |
| Ecnumber | 202-230-8 |
As an accredited b-Naphthol-athylather factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging consists of a 500g amber glass bottle with a sealed cap, featuring clear labeling for b-Naphthol-ethyl ether, hazard symbols, and batch details. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for b-Naphthol-ethyl ether: Usually 12-14 metric tons packed in 25kg bags, suitable for bulk chemical shipments. |
| Shipping | **Shipping Description for β-Naphthol-ethyl Ether:** Ship β-Naphthol-ethyl ether in tightly sealed containers under dry, well-ventilated conditions. Protect from physical damage, heat, and incompatible substances. Label properly as a chemical substance. Follow all local, national, and international regulations for the transportation of laboratory chemicals. Handle with care to avoid spills or leakage. |
| Storage | **b-Naphthol-ethyl ether** should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from sources of ignition. Keep it away from incompatible substances such as strong oxidizers and acids. Store at room temperature, protected from light and moisture. Ensure proper labeling and access to Safety Data Sheets (SDS) for safety reference. |
| Shelf Life | b-Naphthol-ethyl ether typically has a shelf life of two to three years when stored in a cool, dry, tightly sealed container. |
Competitive b-Naphthol-athylather 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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Tel: +8615371019725
Email: sales7@boxa-chem.com
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In the world of specialty chemistry, knowledge goes far beyond just molecules and reaction pathways—it stems from hours spent in reactors, sleepless nights troubleshooting batch inconsistencies, and a constant focus on safety and compliance in daily practice. We don't look at b-Naphthol-athylather as just another listing in a catalog. This compound represents thousands of hours refining reaction controls, filtration, and drying conditions to keep every microgram within tight spec. Many overlook the subtleties in fine chemicals, but every step from raw material inspection to final packaging shapes reliability.
b-Naphthol-athylather, often referenced as 2-naphthol ethyl ether, has become more than just a tool for organic synthesis labs. Chemical industries find value in its specific etherification, which offers a smoother pathway in making intermediates for fine dyes, pigment precursors, and select pharmaceuticals. Our process relies on years working with naphthol derivatives; we've faced enough byproducts, side-reactions, and inconsistent yields to know the value of unwavering process oversight. While model numbers might matter to procurement, real value comes from crystalline purity and consistent melting points batch to batch.
We settle for nothing less than a product meeting trace-level impurity restrictions, verified by high-performance liquid chromatography and NMR spectra. Experience has shown that even trace levels of unreacted naphthol or over-etherified byproducts can disrupt downstream reactions, whether in a dye synthesis scale-up or an active ingredient project. Years in chemical manufacturing highlight a simple principle: vigilance in one process step pays dividends downstream, in both productivity and safety.
Reliable specifications mean more than numbers on a safety sheet—they reflect day-to-day attention in the plant. For b-Naphthol-athylather, we target a minimum purity above 99%. Particle sizing runs between 50 and 200 mesh, based on customer preference, but our core lots maintain tight control below 100 mesh for most uses. We control moisture with sealed packaging and regularly test for water content below 0.5%, since residual water in storage or shipping can compromise stability or encourage degradation during long-haul transit.
Color, clarity, and free-flow properties speak volumes about underlying process hygiene. Aging reactors, unfiltered solids, or out-of-spec solvent washes, even for a single shift, show up as off-colors and sticky powder—great reminders why keeping both people and machinery alert matters daily. We remind new plant technicians to grind their own raw material at least once: nothing builds respect for tight granulation like scraping a stubborn reactor on night shift when everyone else has gone home.
Over time, b-Naphthol-athylather has carved a place in at least three demanding sectors. Dye chemists prize its reactivity in coupling reactions, especially where traditional naphthols show troublesome side reactions or unwanted tars. As an intermediate, it bridges older phenolic dye routes and newer, more eco-conscious pigment processes. We also supply pharmaceutical labs seeking specialty ethers for novel building blocks—its substituted structure avoids several common pathway bottlenecks, trimming both batch times and purification costs. Finally, polymer researchers have started favoring this compound in certain specialty elastomer formulations. The unique ether group imparts flexibility that rigid naphthol versions can't match, while its naphthalene core preserves thermal resistance.
Experience tells us that no two customers use this intermediate quite the same way. Some prioritize maximum brightness and color yield in pigments, others care solely about residue-free burn-off in elastomer moldings. Pharma teams run pilot lots focusing on chiral purity or trace solvent levels. We thrive on this variety. Adjusting filtration steps, tweaking recrystallization solvents, or switching grinding media—these decisions might go unnoticed outside the lab, but in practice, they translate into handfuls of happy clients and strong, long-term relationships.
Years of troubleshooting guide our product differentiation decisions. b-Naphthol-athylather often gets compared with unsubstituted naphthol ethers and straight 2-naphthol. We frequently discuss advantages in both reactivity and handling. The ether bond here boosts resistance to oxidative attack; batches hold up longer in light and heat than simpler naphthols, which can yellow or degrade in storage. In pigment work, this product suppresses the formation of unwanted azo tars, cutting cleanup time and improving yield consistency. For advanced synthesis teams, its defined melting point and low volatility keep handling predictable both in pilot and production runs—even when operators change shifts or seasons bring new humidity.
Digital data can't always capture every real-world difference. Years back we saw several projects stall due to minor trace metal contamination in off-brand b-Naphthol ethers sourced from discount consolidators. Our team tracks every incoming batch of base chemicals, stores them under lock and key, and sets up internal QC checks that flag even single-ppm deviations. This care pays off: our customers rarely see project interruptions or unexplained side products, even when pushing reaction parameters.
A manufacturing plant shouldn't run on autopilot. It's easy to imagine that software and automation alone safeguard quality, but our best insights often come from hands-on operators paying attention to sounds, smells, and changes that don't show up in code or printouts. Every order of b-Naphthol-athylather ships only after multi-step confirmation—starting with visual inspections, moving through chromatography and NMR, then finishing with weight-granulation checks before final packaging. We believe transparency in this process gives users specific confidence every time they scale up, audit a supplier, or troubleshoot a late-stage failure.
Training plays a critical role in our reliability. We've seen new team members underestimate the importance of dryer settings or solvent rinse schedules. A small missed step can generate off-odors in storage or cut product shelf life in half. Our solution is simple: cross-training every operator and holding regular roundtable reviews of batch logs, especially after large or nonroutine runs. This real-time, experience-based learning keeps waste to a minimum and ensures that even during maintenance cycles or supply chain shortages, our quality keeps pace.
We stay engaged with ongoing industry trends, particularly as environmental and product safety norms evolve. This attention goes beyond regulatory paperwork. Our process reviews encompass everything from solvent recovery to energy efficiency and emission minimization. In pharmaceutical and dye-pigment applications, international standards call for clear traceability from raw input through delivery, and our internal audits reinforce this expectation. Customers have remarked that batch-to-batch documentation from us answers questions before they reach the compliance desk.
Toward sustainability, we've updated raw material sourcing where possible, preferring greener solvents and minimizing single-use plastics in the logistics chain. This isn't a paper exercise—it's a response to stakeholder feedback and hands-on plant life. Proper waste streams mean less downtime with authorities and fewer worries about community impact, and partners appreciate documentation that clarifies these improvements with data rather than slogans.
From early conversations, we encounter users troubleshooting everything from scale-up heat control to pigment performance in drastically different production environments. A key part of our value comes from feedback loops: ongoing customer calls, batch notes annotated by lab teams, and even invitation to on-site audits by key partners. Our technical support lines aren't outsourced scripts but staffed by lab and plant personnel ready to walk through detailed troubleshooting—whether the inquiry comes from a pigment line in Asia or a pilot pharma batch in Europe.
Trouble in chemical manufacturing rarely has a single cause. A developer facing inconsistent product color might blame batch synthesis conditions, but in practice we've found humidity swings or subpar filtration equipment at the root. By sharing both failures and successes with customers, from laboratory back benches to full-scale tank farms, we foster mutual trust. Both sides learn: we adapt plant practice, while clients save both time and material.
No chemical process stands still forever. Through decades making naphthol derivatives, we've recognized emerging demands for better consistency at scale, safer workplace exposure limits, and compatibility with new production technologies. What sets seasoned manufacturers apart lies in identifying potential bottlenecks before they disrupt whole production lines. Our R&D group works alongside plant teams to trial upgrades, ranging from new reactor linings for sharper temperature control to remote sensors for solvent vapor levels.
Customers now expect more detail and predictive support, especially as digital twins and process analytical technology (PAT) systems become mainstays in fine chemical plants. Integrating our own batch histories into these digital systems has helped several clients anticipate process upsets and correct dosing faults before a full shutdown. Open collaboration with top-tier pigment houses and contract manufacturers has exposed us to a greater variety of methods, making every round of feedback a true learning opportunity.
We’ve witnessed firsthand how swiftly global shifts—some predictable, some not—ripple through the chemical supply chain. Recent years have pushed every production facility, ourselves included, to strengthen relationships with core feedstock suppliers and maintain strong secondary logistics options. For b-Naphthol-athylather, consistent access to quality naphthol input and stable reagents underpins every monthly forecast. Factory-level stockpiles help cushion abrupt shipping delays or customs holdups, letting us fulfill contracts without passing costs on to partners.
Transparency in supply sourcing builds direct trust for us and our clients. We believe in open communication, especially when market disruptions threaten lead times. Early warning about a potential delay helps teams move projects forward with minimal disruption. Based on years tackling unexpected shortages, we can say that preparation and honest conversation matter as much as technical capability.
b-Naphthol-athylather doesn’t just represent premium organic synthesis; it reflects years of cumulative experience, tough lessons learned from both setbacks and successes, and an ongoing respect for the real people—chemists, engineers, operators—who make technology work. We set high standards not as a sales pitch, but because the daily performance of customers across dye, pigment, pharmaceutical, and specialty polymer sectors depends on it.
Every container sent out tells a story—of vigilant sourcing, careful process control, hands-on troubleshooting, and support that doesn’t end at shipment. Problem-solving isn’t just a slogan in our business; it’s woven into every conversation, every operator shift, every technical adjustment. It’s how we've built a reputation in specialty intermediates like b-Naphthol-athylather that lasts beyond any single quarter or procurement cycle.
As industry and regulatory trends evolve, we are committed to sharing the best of our hard-won knowledge, supporting challenges both expected and unpredictable, and keeping integrity at the core of every step from synthesis to delivery. Customers have come to rely on us for more than just product—they rely on experience, attention to detail, and a deep-seated pride in both the chemistry and the people behind it all.
