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HS Code |
517988 |
| Cas Number | 93-89-0 |
| Molecular Formula | C9H10O2 |
| Molecular Weight | 150.17 g/mol |
| Iupac Name | Ethyl benzoate |
| Appearance | Colorless liquid |
| Odor | Pleasant, fruity aroma |
| Boiling Point | 211°C (412°F) |
| Melting Point | -34°C (-29°F) |
| Density | 1.045 g/cm³ at 20°C |
| Flash Point | 96°C (205°F) |
| Solubility In Water | Insoluble |
| Refractive Index | 1.503 at 20°C |
| Vapor Pressure | 0.19 mmHg at 25°C |
| Logp | 2.96 |
| Uses | Flavoring agent, fragrance, solvent |
As an accredited Ethyl Benzoate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Ethyl Benzoate is packaged in a sealed amber glass bottle containing 500 mL, labeled with safety information and chemical identification. |
| Shipping | Ethyl Benzoate is shipped in tightly sealed containers, protected from light, heat, and moisture. It should be transported according to local and international regulations, classified as non-hazardous for transport. Ensure containers are upright and securely fastened to prevent leaks or spills during transit. Store in a cool, well-ventilated area. |
| Storage | Ethyl benzoate should be stored in a tightly closed container in a cool, dry, and well-ventilated area away from sources of ignition and incompatible substances such as strong oxidizers. Keep away from direct sunlight and heat. Ensure the storage area is equipped with spill control and fire extinguishing equipment, and label the container clearly to avoid accidental misuse. |
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Purity 99%: Ethyl Benzoate Purity 99% is used in fragrance formulations, where it ensures a pure and consistent aroma profile. Boiling Point 213°C: Ethyl Benzoate Boiling Point 213°C is used in industrial solvent applications, where it provides high-temperature process stability. Molecular Weight 150.17 g/mol: Ethyl Benzoate Molecular Weight 150.17 g/mol is used in synthesis of pharmaceuticals, where it allows for precise stoichiometric calculations. Flash Point 93°C: Ethyl Benzoate Flash Point 93°C is used in flavor additive manufacturing, where it enhances process safety during handling. Refractive Index 1.503: Ethyl Benzoate Refractive Index 1.503 is used in optical resin production, where it improves optical clarity. UV Stability: Ethyl Benzoate UV Stability is used in sunscreen formulation, where it maintains performance and prevents degradation under sunlight. Density 1.045 g/cm³: Ethyl Benzoate Density 1.045 g/cm³ is used in specialty coatings, where it ensures uniform layer distribution. Water-Solubility Low: Ethyl Benzoate Water-Solubility Low is used in waterproof cosmetic products, where it enhances resistance to moisture. Color <10 APHA: Ethyl Benzoate Color <10 APHA is used in clear beverage flavoring, where it avoids color contamination. Odor Characteristic: Ethyl Benzoate Odor Characteristic is used in perfumery, where it imparts a pleasant and lasting sweet aroma. |
Competitive Ethyl Benzoate prices that fit your budget—flexible terms and customized quotes for every order.
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Ethyl Benzoate has caught the attention of scientists, product developers, and manufacturers thanks to its unique fragrance and its straightforward chemical structure. Many recognize it from the subtle, fruity aroma often found in artificial flavors and perfumes, but its influence stretches far beyond just perfumery. Here, the product model offered stands out for its reliable purity level, fine consistency, and ability to integrate well across several applications. Anyone who has spent time in a quality control lab knows the value of reproducibility, and this compound holds its standards, batch after batch.
From my own work supporting flavor development labs, I’ve seen Ethyl Benzoate find its way into creative blends where other esters can feel heavy-handed or overbearing. What’s always mattered in every project is purity. Having a well-specified Ethyl Benzoate—say, 99% purity by GC result—lets developers experiment with new profiles without worrying about off-odors or unwanted traces of side-products sneaking into their formulations. This reliability gives formulators breathing room. Workers can test and scale up recipes without going back to the drawing board for every fresh drum.
Ethyl Benzoate comes as a transparent, colorless liquid. Its subtle, sweet scent gives it away as soon as the container opens. With a boiling point just above 210°C and a density hovering near 1.05 g/mL at room temperature, safe handling is not so different from managing most standard organic liquids, but I’ve always kept close tabs on storage. Heat, light, and open air speed up hydrolysis, so it pays to keep containers sealed and in a cool, dark place. In one project where we neglected these simple precautions, we noticed rapid declines in quality control measurements, wasting both time and product. Details like these might feel minor, until they become the difference between smooth operations and hours of troubleshooting.
Its ease of mixing comes from well-understood solubility in alcohols, ethers, and almost any organic solvent you’d find in a typical lab or production line. This means less fuss and no need to mess with exotic carriers. Oils, alcohols, and even some waxes take well to Ethyl Benzoate, simplifying the job for flavorists aiming to strike just the right note or cosmetic formulators searching for a gentle solvent that won’t overpower more delicate aroma elements. These details rarely land in the marketing brochure, but in practice, they affect every step from bench testing to full-scale blending.
Ethyl Benzoate holds a well-earned spot in the flavor and fragrance world, serving as a go-to for fruity, berry-like effects in candies, baked treats, and beverages. Natural flavors fade or turn bitter during processing, so chemists appreciate a molecule that delivers reliable notes no matter the batch size, temperature, or accompanying ingredients. In my time behind the counter in a food science lab, even a small percentage of a lesser-quality ester threw off taste panels, leaving the product harsh or chemically. The right grade of Ethyl Benzoate sidestepped that mess, helping projects hit tight market windows instead of bouncing back and forth for reformulation.
Found in everything from industrial coatings to household cleaners, its solvent abilities match those of famous standards like ethyl acetate or butyl acetate. However, Ethyl Benzoate brings a softer scent profile and a slower evaporation rate. Car painters and materials scientists have told me about choosing this product to balance fast flash-off with working time, giving them more control over gloss and texture. That makes sense, since so much of practical chemistry involves these small trade-offs—choosing between speed, smell, safety, and environmental impact. Ethyl Benzoate lands in a sweet spot where it can do the heavy lifting yet keep sensitive users comfortable.
Talking shop with other formulation chemists, I often compare Ethyl Benzoate to competitors like ethyl acetate or methyl benzoate. The differences go deeper than scent alone. Ethyl Benzoate’s structure offers greater stability under light and heat. Other esters, particularly those with shorter carbon chains, break down faster. Anyone making shelf-stable items—especially those transported across climates or stored for long stretches—leans into that extra confidence. I’ve seen this play out in warehouses where temperature spikes can be brutal. The Ethyl Benzoate-based batches made it through with consistent quality, keeping both managers and lab teams satisfied.
In my view, what really draws repeat customers is clarity around trace impurities. Cheaper alternatives usually carry residual acids or alcohols that sneak up during quality checks. The model on offer here wins favor by regularly meeting high standards for low levels of benzoic acid and ethanol residues. Companies with strong regulatory expectations march toward products like this. They want traceability, batch record transparency, and certificates built on genuine test data. Ethyl Benzoate with these credentials avoids headaches from surprise audits or import checks.
Laboratories focused on research and development often need small, precisely measured quantities. Bulk users, such as industrial cleaners or fragrances manufacturers, deal in drums or IBCs. I’ve noticed the packaging options available for this Ethyl Benzoate reflect those realities. Glass bottles for bench chemists, lined metal containers for factory users—these choices prevent contamination and make life easier at every scale. This feels like a small thing until you run into a drum that’s corroded by solvent ingress or a glass bottle that leaks in shipment. Practical details like this, rooted in user experience, keep repeat business rolling in.
Ethyl Benzoate doesn’t come with many hazard flags. Still, anyone who has worked with industrial chemicals knows the value of good gloves, splash-proof goggles, and proper ventilation. It pays to respect even the mildest esters since skin contact or inhalation can sneak up in long mixing sessions. In facilities I’ve visited, most incidents began with basic steps missed: improper sealing or lax labeling. Training new staff on responsible handling remains a backbone of safe practice.
Regulatory guidelines focus mostly on clean production processes, clear labeling, and proper storage. For food and fragrance work, Ethyl Benzoate must meet tight specifications for purity and contaminant levels, especially in products crossing international borders. Forward-thinking suppliers publish detailed certificates of analysis for every batch. Some even undergo third-party audits or maintain samples for years to answer future regulatory questions. This attention to recordkeeping and transparency helps build trust, both for product developers and for the end user relying on what’s in the bottle.
Extracting and refining chemicals like Ethyl Benzoate used to be a messy business. Over the past decade, pressure for sustainable sourcing and greener processing has reshaped expectations. Environmental teams I’ve worked alongside point out that benzoic acid—the starting material—can be found in many plant sources or made under cleaner, energy-conscious conditions. Modern practices reduce solvent use, recover unused materials, and stick close to circular economy ideals.
Down the line, disposal concerns draw attention. Ethyl Benzoate breaks down with standard industrial treatment methods, lessening the risk of long-lived pollution compared to other solvents and additives. Waste managers, environmental scientists, and corporate sustainability officers now push for clear information on every outgoing shipment. Each step in the chain matters. Companies who provide documentation not only help downstream users but support a cycle where environmental responsibility goes hand-in-hand with business growth.
The everyday story of Ethyl Benzoate is a tapestry built from hundreds of small successes. Flavor labs achieve that perfect berry note in soft drinks because this ester lets them work reliably. Coating formulators keep products smooth and glossy without heavy odors. Textile finishers see their dyes set evenly. Farmers working in crop protection benefit from its low toxicity and efficient volatility, helping deliver active ingredients exactly where they’re needed.
Whenever supply chain headaches pop up, people want responsive partners, technical information, and problem-solving support. Whether it’s comparing batch analysis data to international standards or figuring out how to safely switch production lines, the best suppliers treat each interaction like a hands-on conversation. I’ve watched teams thrive under transparent, flexible support even in the thick of a supply crunch or regulatory shake-up.
Ethyl Benzoate, for all its versatility, still faces challenges. Rise in global demand drives up price volatility. Regulatory tightening, especially around import/export in food use, forces suppliers to raise standards every year. In my own workplace, we faced a surprise recall over a labeling mismatch—not a quality issue, but a paperwork gap that delayed an entire project launch. This shows how important holistic management and traceability are to the future of the industry.
Customers now ask for sustainable sourcing certificates, shorter delivery times, and samples tailored to their particular process needs. Suppliers who invest in digital traceability, transparent sampling, and fast technical response build long-term trust. I’ve seen firsthand how shared documentation and regular benchmarking drive industry improvements. Joint workshops and open dialogue between manufacturers and users encourage sharper best practices on everything from chemical handling to environmental stewardship.
The road ahead encourages cooperation and innovation. Chemical suppliers can smooth logistical headaches by building local warehousing and robust supply lines, reducing the pain from sudden border or shipping disruptions. Growing pressure for green chemistry suggests more investments in bio-based benzoic acid or new catalytic processes that save water, energy, and raw materials. Collaborative research with universities shines a light on safe disposal and improved recycling methods. Industry groups can set voluntary standards, raising the bar beyond minimum legal requirements to help the whole ecosystem run cleaner and more reliably.
From my standpoint, progress happens fastest when everyone in the chain—from producer to end user—stays in communication and treats each transaction as part of a longer relationship. Product feedback, shared troubleshooting, and small, manageable pilot programs help spot problems before they ripple into big bottlenecks. Managed well, products like Ethyl Benzoate can balance tradition and innovation, history and bold new chemistry, with room for both cautious incremental steps and fresh ideas.
The story of this chemical stretches further than just its data sheet. Anyone who’s mixed flavors, chosen fragrances, proofed paint, or tested textile coatings knows how much depends on reliable, well-characterized ingredients. In these settings, technical facts matter, but so does the trust built up through evidence—clear labeling, batch-to-batch consistency, responsible stewardship, and open channels for feedback.
Some may see Ethyl Benzoate as just another number tucked away in the registry. Those who use it see a trusted building block making daily work smoother, more creative, and less risky. Its role in delivering clean aromas, soft solvent action, and sustainable processing fits the spirit of new manufacturing—one where quality, safety, and care for user well-being all share the spotlight. I've witnessed small teams bring new products to life with this compound as their foundation, reaching markets around the globe. That’s the kind of reliability and performance every serious formulator deserves to depend on.
As industry expectations shift, so do the minimum standards for quality, service, and stewardship. Ethyl Benzoate stands out thanks to its dependable performance in flavor, fragrance, and specialty chemical markets. In each of these spaces, success grows not only from technical data but from honest partnerships, transparent records, and responsive support. By focusing on both product strength and responsible practice, suppliers help their users innovate with confidence, stay ready for changing regulations, and keep sight of the far-reaching impact that a well-made ingredient can have on everyday life.
