|
HS Code |
404074 |
| Chemicalname | Phenyl Ethyl Ether |
| Synonyms | Ethoxybenzene, Benzene, ethoxy- |
| Molecularformula | C8H10O |
| Molarmass | 122.16 g/mol |
| Casnumber | 103-73-1 |
| Appearance | Colorless liquid |
| Odor | Pleasant, aromatic ether-like |
| Boilingpoint | 172-174°C |
| Meltingpoint | -27°C |
| Density | 0.96 g/cm3 at 20°C |
| Solubilityinwater | Insoluble |
| Flashpoint | 57°C (closed cup) |
| Refractiveindex | 1.501 at 20°C |
| Vaporpressure | 0.6 mmHg at 25°C |
| Logp | 2.5 |
As an accredited Phenyl Ethyl Ether factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
|
Purity 99.5%: Phenyl Ethyl Ether with purity 99.5% is used in pharmaceutical synthesis, where it ensures high-yield reaction efficiency. Boiling Point 172°C: Phenyl Ethyl Ether with a boiling point of 172°C is used in solvent extraction applications, where precise temperature control prevents degradation of sensitive compounds. Low Water Content <0.01%: Phenyl Ethyl Ether with low water content <0.01% is used in organic synthesis, where minimal moisture presence reduces side reactions. Stability Temperature up to 120°C: Phenyl Ethyl Ether with stability temperature up to 120°C is used in analytical laboratories, where thermal stability ensures accurate chromatographic measurements. Refractive Index 1.496: Phenyl Ethyl Ether with a refractive index of 1.496 is used in optical formulations, where it enhances clarity and consistency in final products. Viscosity 0.85 mPa.s (25°C): Phenyl Ethyl Ether with viscosity 0.85 mPa.s at 25°C is used in specialty coatings, where low viscosity enables uniform application and smooth surface finish. AR Grade: Phenyl Ethyl Ether of analytical reagent (AR) grade is used in spectroscopy sample preparation, where high purity reduces background interference for reliable results. Density 0.96 g/cm³: Phenyl Ethyl Ether with density 0.96 g/cm³ is used in perfumery blending, where defined density ensures predictable solubility and mixture stability. |
| Packing | Phenyl Ethyl Ether, 500 mL, supplied in an amber glass bottle with leak-proof cap and clear hazard labeling for laboratory use. |
| Container Loading (20′ FCL) | Phenyl Ethyl Ether 20′ FCL: Securely packed, sealed drums or IBCs, maximizing container capacity; compliant with international chemical transport regulations. |
| Shipping | Phenyl Ethyl Ether should be shipped in tightly sealed containers, protected from light and moisture. Use sturdy, compatible packaging with appropriate hazard labeling. Transport in well-ventilated vehicles, away from heat, ignition sources, and oxidizers. Comply with local and international regulations for flammable liquids to ensure safe handling and delivery. |
| Storage | Phenyl Ethyl Ether should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from sources of ignition, heat, and incompatible materials such as strong oxidizers. Protect it from direct sunlight. Ensure proper labeling and keep away from acids. Store at room temperature and use appropriate safety measures to avoid inhalation and skin contact. |
| Shelf Life | Phenyl Ethyl Ether typically has a shelf life of 12-24 months when stored in a tightly sealed container, away from light. |
Competitive Phenyl Ethyl Ether prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615380400285 or mail to sales2@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615380400285
Email: sales2@liwei-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Chemicals rarely tell their own story. At our manufacturing site, we work side by side with our products, so we’ve come to know them not as technical entities, but as memorable parts of our daily operations. Phenyl Ethyl Ether often stands out—remarkable, not just by name, but by what it brings to the table for perfumery, flavor, and synthesis sectors.
Our own view of Phenyl Ethyl Ether starts at the production line. Each batch draws its essence from controlled synthesis, careful distillation, and a focus on purity. We do not center our attention on serial numbers or fancy marketing models—what matters to us is reproducibility and compliance. The ether is clear, nearly colorless, and its signature aroma is crisp and floral with a sweet nuance, worth noting both in raw form and as a component in more complex formulations. Tracking from start to finish, we test every lot to ensure a minimum of 99% purity, free from both acidic and alkaline residue.
Whenever we walk through the plant and catch that distinct aromatic lift, it tells us the batch is on track. We’ve learned that small differences in feedstock, temperature control, and vessel cleanliness show up in the final product’s olfactory profile. Reliable phenyl ethyl ether comes from careful planning and execution, not shortcuts or substitutions.
Synthetic intermediates earn respect not from theory, but from what they do in practice. Phenyl Ethyl Ether is nearly indispensable in fragrance production. Its vibrant, rose-like scent profile makes it popular in fine perfumes and air fresheners. We see it being blended with other aromatic chemicals for nuanced perfumes and as a fixative that gives top notes more lift and longevity. Our partners in perfumery give us detailed feedback about the way impurities or inconsistent quality interrupt a long production run. We listen, we adapt, and we know any compromise on purity leads to failings in finished scent, which is why we stay strict with our process.
Flavors, particularly those crafted for candies and beverages, also depend on this compound. The faintly honeyed, floral undertone provided by phenyl ethyl ether is hard to replicate. From a manufacturer’s seat, it gets tricky—food and beverage companies keep a close eye on input quality, and even tiny variances in aromatic profile can send them searching for alternatives. We use dedicated equipment and storage containers, as cross-contamination from previous batches, even with “clean” solvents, can carry flavors or odors that alter the product.
People in the chemical business often ask us about difference between Phenyl Ethyl Ether and other compounds in the same family. To us, this isn’t about pageantry; it’s about seeing how each molecule performs where it counts. We’ve run batches of ethyl phenyl ether, anisole, and diphenyl ether, and we know each brings a different volatility curve, odor threshold, and reactivity.
Most ethers share a characteristic volatility but their odor profiles drift. For example, anisole gives off a sharp, sweet, slightly medicinal aroma where phenyl ethyl ether is mellower and more floral. The market for perfumery notices this and pays a premium for gentle, long-lasting top notes. Our own storage and blending teams differentiate between accidental contamination with related ethers by their specific gravity, boiling points, and sensory inspection—not everything shows up in chromatography; some differences reach you only by nose.
Diphenyl ether feels much heavier, both in structure and its scent profile. It gets used in industrial applications, nowhere near as popular for flavors or fragrances. We find suppliers sometimes push products under one label or another if buyers can’t discriminate—one look, one whiff, and years of manufacturing experience cut through the mistake. We focus on keeping product lines physically and organizationally distinct, which saves effort later.
Think of strict specification as more than regulatory paperwork. In manufacturing, we build a full workflow around product reliability. Our reactors are stainless steel and steam-jacketed, designed to tolerate both the reactants and the resulting aromatic ether’s oxidative stability. Logs in the control room track every vessel’s wash and rinse cycles. Even small traces of prior reactants can linger and show up later in analysis, so we dedicate cleaning campaigns to high-use products like phenyl ethyl ether.
We hear a lot from R&D labs that try to interchange phenyl ethyl ether with cheaper alternatives for cost reasons. From direct feedback and our own small-scale tests, performance never matches what’s promised by spec sheets alone. Flavorists using the compound for fine beverages notice if a batch has trace contaminants from other ethers or alcohol byproducts. In regulatory submissions, the data from a clean, well-characterized phenyl ethyl ether batch writes its own resume.
Many users see this as a text on cost-benefit; we see it as a trust issue. Repeat customers aren’t just after bulk shipments—they want to run their formulation without pausing at every junction and retesting for inconsistencies. Our support teams get calls from both end users and research labs who rely on lot-to-lot consistency, ranging from large perfumers based in France to flavor houses in Asia.
Every operator, from new apprentice to veteran technician, recognizes the distinct odor of phenyl ethyl ether before even reading the tank labels. Our floor training focuses on careful transfer, using low-pressure pumps and insulated lines, as the vapor is both flammable and can become strong in closed spaces. We store product under an inert gas blanket and closely monitor headspace for oxygen and humidity. Most spills clean up easily with absorbent, but we report every spill, no matter how small, since persistent floral volatility reveals mistakes others might cover up with less aromatic compounds.
Accidents happen less often when everyone knows the peculiarities of a given chemical. Phenyl ethyl ether’s volatility gives it away if lines aren’t sealed tight, and as a manufacturer, we always trace leaks not just at the endpoint, but back through entire production chains. We invest in reliable PPE and continuous air monitoring in busy transfer bays. Our laboratory teams run quick spot checks on every new drum before release, since transport vibration sometimes creates static and can alter drums’ contents.
You learn over time which chemicals demand more respect, and phenyl ethyl ether’s vivid odor enforces its presence. Along with flammability, we pay attention to its subtle breakdown products, which can cause off-odors or change physical characteristics if the product is stored too long or exposed to heat. We track every drum and advise customers on best-by usage dates.
Scaling the production of phenyl ethyl ether isn’t just about bigger tanks. We started with small glassware systems and quickly saw time, temperature, and agitation all play critical parts in batch outcome. Any shortcut in the condensation or washing stages leads to quality drift. Manufacturing at several hundred kilograms per run taught us to tweak parameters, track solvent quality, filter sequences, and even pump types. The payoff shows up not just in our samples’ test results, but in reduced customer complaints.
Every improvement we implement comes from hands-on experience. Automated distillation sequences save hours of labor, but hand inspection remains key. Our staff have learned to spot unusual hues or slight turbidity in product fractions—these often trace back to minor variations in reactant quality. Repairs and upgrades to condensers, reboilers, and storage tanks stem from practical failures and persistent troubleshooting. We maintain on-site labs for wet testing, verifying compliance before any material leaves the gate.
Supply chain disruptions and raw material constraints also teach real lessons in flexibility. Phenyl ethyl ether depends on precursors, and sourcing from validated suppliers reduces risk of later purification headaches. Recent years brought added scrutiny on contaminant limits, which meant more investment in analytical capacity. Gas chromatography-mass spectrometry, once reserved for R&D, became daily routine for standard product release. Detection of trace byproducts, such as substituted phenyl ethers or minor alcohols, happens in real time, not after complaints surface.
Buyers want confidence, and that comes from more than a standard analysis certificate. Our batch records tie back to personnel logs, equipment maintenance schedules, and the actual calibration status of every analyzer, at the time of batch release. We respond to customer requests for historical data without delay, and often share learnings from our own internal troubleshooting when trends in purity, volatility, or odor shift between production lots.
Regular customer visits guide us in subtle improvements. We catalog how batch stability holds up in high-humidity warehouses or in transit over long distances. Feedback from perfumers about faint taints or oxidative changes prompts us to analyze storage gases and improve drum lining specifications. Traceability means more than tracking paperwork; it is a culture of shared evidence with partners up and down the supply chain.
We have turned away requests to provide reprocessed or “second run” ether, even at significant margins, because our own experience tells us those products single out for returns and complaints. Long after drums leave our facility, we follow up with clients, checking for delayed changes from temperature excursions or accidental mixing, and we record any incidents into our process improvement logs.
Sustainability began as a corporate watchword, but on the floor, the meaning is more direct. Waste and emissions have always carried both regulatory and operational costs. Like most aromatic ethers, phenyl ethyl ether production can produce off-gas and distillation residue. We run scrubbers and carbon filters on our vent streams, and we recover solvents at every stage when the chemistry allows it. Hearing from downstream customers about their environmental audits helps us share perspective, not just with our own teams but with others in the industry interested in pushing for cleaner manufacturing.
Since nothing matters until results reach the customer, we track carbon and volatile organic emissions from our stacks. We post summaries of our environmental sampling data on-site and share them on request. Our staff are regularly briefed on both safety and environmental targets, and their reward structure links back to quality and sustainability benchmarks. Equipment upgrades, like closed transfer systems and recovery stills, came straight from team suggestions, not just managerial mandates.
As the regulatory landscape changes, expectations for trace contaminants, allergens, and detailed compositional declarations become more rigorous. Our analytical chemists already work on methods to further shrink impurity levels and to extend documentation for every outgoing drum. Rather than follow, we try to anticipate what our buyers and their regulators will demand, and we put resources into developing cleaner feedstocks and alternative, lower-emission process steps.
We also invest in education, as our best customers are those who understand the full manufacturing narrative, not just the bottom-line price. We sponsor research projects in application labs and encourage transparency with our buyers. Phenyl ethyl ether production will always demand vigilance, as new applications in bio-based flavors and fragrances put scrutiny on minor constituents and breakdown products.
After decades running reactors and shipping drums, our focus remains unswerving: deliver phenyl ethyl ether that meets the expectations of real users, not just lab reports. We know that finished product quality in the market begins with uncompromising manufacturing controls. Consistent batches enable formulators to focus on innovation, not firefighting process-induced defects. Our operating procedures reflect lessons learned from missed shipments, off-spec returns, and direct partnerships—not textbook ideals, but routine, collective discipline.
What we sell carries our reputation to other businesses. Every time phenyl ethyl ether shows up flawless in a finished perfume or flavor blend, it is the result of hundreds of choices and checks—each grounded in practical knowledge, not theoretical intent. We encourage any user—chemist, perfumer, or flavorist—to look beyond spec sheets and talk directly with us about their experiences. Real transparency, reinforced by ongoing support and adaptive manufacturing, builds trust in ways that specs and certifications never fully accomplish on their own.
We often say that chemicals, like people, reveal their true nature under pressure. Our experience as a direct manufacturer of phenyl ethyl ether led us to value detail, persistence, and open feedback. Every batch embodies what we know and what we keep learning—about processes, products, and partner requirements. Aromatics will always play a big part in modern industries from fine fragrance to advanced synthesis, and as the needs of the world shift, we stay anchored by our roots in genuine, hands-on manufacturing. The differences between one ether and another are not just about numbers, but about commitment to doing the job right every time.
