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All Right Reserved
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HS Code |
639940 |
| Product Name | Vc Ethyl Ether |
| Inci Name | 3-O-Ethyl Ascorbic Acid |
| Chemical Formula | C8H12O6 |
| Molecular Weight | 204.18 g/mol |
| Appearance | White to off-white powder |
| Solubility | Soluble in water |
| Cas Number | 86404-04-8 |
| Melting Point | 110-115°C |
| Ph Stability | Stable at pH 3-6 |
| Function | Skin brightening and antioxidant |
As an accredited Vc Ethyl Ether factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for Vc Ethyl Ether comes in a 500ml amber glass bottle with a secure screw cap, labeled with safety warnings. |
| Shipping | Vc Ethyl Ether should be shipped in tightly sealed containers, protected from light, heat, and moisture. Use appropriate labeling and packaging compliant with chemical transport regulations. Ship via tested chemical carriers, ensuring secondary containment to prevent leaks or spills. Handle with caution, following all relevant safety and documentation guidelines during transit. |
| Storage | Vc Ethyl Ether should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible substances such as strong oxidizers or acids. Ensure proper labeling and keep away from ignition sources. Use explosion-proof electrical, ventilating, and lighting equipment, and store under an inert atmosphere if advised by the manufacturer. |
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Purity 99%: Vc Ethyl Ether with purity 99% is used in skin brightening serums, where it delivers enhanced antioxidant activity and promotes even skin tone. Stability temperature 85°C: Vc Ethyl Ether with stability temperature 85°C is used in sunscreen formulations, where it ensures active ingredient efficacy during high-heat processing. Molecular weight 204.20 g/mol: Vc Ethyl Ether with molecular weight 204.20 g/mol is used in anti-aging creams, where it penetrates dermal layers efficiently for collagen stimulation. Aqueous solubility 200 mg/L: Vc Ethyl Ether with aqueous solubility 200 mg/L is used in hydrating facial mists, where it disperses uniformly for sustained vitamin C release. Melting point >120°C: Vc Ethyl Ether with melting point above 120°C is used in pressed powder cosmetics, where it maintains structural integrity throughout manufacturing. Particle size <10 µm: Vc Ethyl Ether with particle size below 10 µm is used in microencapsulated delivery systems, where it provides improved skin absorption and controlled release. UV stability high: Vc Ethyl Ether with high UV stability is used in day creams, where it prevents photodegradation and maintains product efficacy. Hydrophobicity moderate: Vc Ethyl Ether with moderate hydrophobicity is used in oil-in-water emulsions, where it offers enhanced compatibility and stability of active complexes. |
Competitive Vc Ethyl Ether prices that fit your budget—flexible terms and customized quotes for every order.
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As a chemical manufacturer who has poured years into perfecting ascorbic acid derivatives, I know what it takes to move an idea from bench chemist speculation to large-volume output. Vc Ethyl Ether, sometimes recognized by its chemical name Ethyl Ascorbic Acid, arrived early in our portfolio, chosen for its blend of familiarity and its singular leap in properties compared to traditional ascorbic acid. Straight talk: ascorbic acid comes with frustrating quirks, most notably instability and the tendency to discolor or break down under everyday conditions. In our process halls, these quirks slow down production and push costs, especially since customers—notably in cosmetics and dermatology—rely on us for stable, strong-performing Vitamin C derivatives.
The truth that hits you in the lab is that pure ascorbic acid, despite its fame, doesn’t play well with air, water, or heat. It's notorious for oxidation, which means browning, potency loss, and short shelf life. Over the past decade, as global ingredient trends converged on transparency and simplicity, the call for a solution became louder. Vc Ethyl Ether answered back with chemical stability—something we could see right from our first quality checks: batches stayed clear, no persistent off-odors, no unsightly color changes.
In physical appearance, our Vc Ethyl Ether presents as a crystalline powder that holds up during storage and shipment, even above standard room temperatures. Packing lines move faster because this ingredient doesn’t clump or show unexpected behavior under normal handling. This helps us keep product consistency batch after batch, giving downstream users a reliable ingredient they can count on.
Every formulator wants two things from their Vitamin C: skin penetration and continued stable activity. Pure ascorbic acid stumbles on both. By adding an ethyl group at the 3-position, the molecule gains a hydrophobic “tail.” Our experience with this modification shows marked improvement in how the molecule resists oxidation and maintains solubility. In formulation tanks, this means our Vc Ethyl Ether can be held in aqueous or ethanol-rich systems without dropping out or changing color.
Compared with ascorbyl glucoside or other derivatives, ethyl ascorbic acid offers a closer profile to native Vitamin C. Its conversion within skin or biological tissue can happen more directly, giving product developers the best shot at delivering actual Vitamin C where it’s needed—a fact backed by many researchers in dermatology and studied in dozens of technical collaborations with our partners over the years.
Our standard product has purity above 99%, proven by HPLC testing during every batch release. Typical packaging sizes start at 25 kg for bulk users, though we have supplied everything from 1 kg R&D bags up to entire drums for major multinationals. Storage is simple: a dry, cool area, away from direct sunlight. We run stability checks every six months on retained samples to ensure each lot performs the same, even eighteen months after leaving our warehouse.
On the floor, we know product flow and dust control matter to line efficiency. Our powder resists caking and doesn’t produce excess air float during dispensing, which was a major issue with older, less refined grades of Vitamin C derivatives. These changes were developed through joint feedback loops with our regular customers. It serves the whole supply chain, avoiding spills and saving time in both manual and automated dispensing lines.
Most of our output partners use Vc Ethyl Ether in cosmetics, especially in skin serums, creams, and leave-on masks. The cosmetic industry counts on it for brightening, spot-reducing, and addressing even skin tone, outcomes that align with clinical data from our in-house team and external independent labs. Feedback from contract manufacturers consistently points to the ease of blending and formulating clear, non-yellowing products, thanks to the superior stability of this molecule.
We receive technical requests from beverage and functional food players. While global regulations restrict high-dose Vitamin C derivatives in food, some markets have found ways to use the improved stability of ethyl ascorbic acid in specialized wine, juice, and health drink applications. So far, most food-sector formulations remain focused on product lines aimed at adult consumers looking for antioxidant or functional benefits beyond basic nutrition.
In medical skin procedures, preparations loaded with Vc Ethyl Ether get used after laser treatments and peels, based on evidence of reduced inflammation and quicker skin renewal. Our technical service team engages directly with clinical research buyers to support them with consistent quality and clear documentation, since patient safety and predictable outcome are priorities for both the prescribers and the regulators.
Since Vc Ethyl Ether came to market, we’ve worked through a sizable stack of regulatory paperwork. In the EU, it passes muster as a safe cosmetic ingredient. It has no known issues with common allergens and doesn’t require special labelling under current regulations. As always, we guide customers through local requirements, making documentation available—from REACH files to allergen statements—whenever needed. From the manufacturing side, weekly audits push us to maintain GMP-grade controls, keep equipment free of legacy residues, and ensure traceable lot histories. A dozen customer audits, completed over the last two years, have shaped the fine-tuning of our process to cut out contamination risks.
Years ago, we made ascorbyl palmitate and ascorbyl glucoside side by side with our ether variant. Each comes with pros and cons. Ascorbyl palmitate is lipophilic, which suits oil-based systems, but struggles in water-heavy formulas. Glucoside options last well through harsh pH and oxidizing conditions, yet lose ground in actual skin conversion speed, supported by several in-vitro diffusion tests run in our own R&D wing.
Vc Ethyl Ether’s ability to deliver stable, high-concentration Vitamin C solutions has earned it front-table placement for cosmetic houses wanting visible skin benefits without product discoloration. We've seen fewer customer complaints related to rancidity or color drift, which saves our customer service team hours every season. In leave-on skin systems, data from comparative product lifecycles and returned goods show a clear reduction in failed batches when we switch to the ether derivative.
For those who care about downstream product look and feel, as well as conformance to regulatory expectations, Vc Ethyl Ether handles the rough and tumble of real markets better than ingredients that oxidize too fast or need heavy modifications. The relationship between the chemical tweak and practical shelf life can’t be overstated—most manufacturers, including us, plan around this fact to keep quality and cost in the right balance.
Our factory operates on a closed-loop solvent recovery system that minimizes emissions and toxic byproducts from the ethylation step of production. Reducing waste and increasing material yield was not just an afterthought—it’s been part of our CAPEX each project cycle since the shift to Vc Ethyl Ether production began. For every new contract, we host visits from customers looking to assure their own buyers that the environmental impact has been considered from day one. Internally, regular staff training sessions keep our teams sharp and safety-minded, particularly during process changes or equipment upgrades.
We’ve worked to source ascorbic acid feedstock as locally as possible, shortening supply chains and increasing traceability. Working directly with regional suppliers lets us support more robust agricultural practices favoring sustainable citrus farming, which sits at the very start of the Vitamin C ingredient pathway. Our clients value the details behind our sourcing, and we regularly update them with reports and on-site inspection footage.
The push for new Vitamin C derivatives often starts with marketing buzz. In the lab and factory context, a different story emerges: only molecules that work consistently and simplify downstream tasks stick in production. As Vc Ethyl Ether gained steam in technical communities, we ran hundreds of small-scale production tests to track reaction completeness, color retention, and stability in various excipient systems. This process led us to tweak reaction times, purification steps, and drying techniques—each adjustment grounded in hard-won process knowledge, not marketing aims.
It’s tempting to chase every emerging derivative. Over time, the market has shown a clear preference for solutions that merge a recognizable safety profile and proven real-world performance. We made the decision to commit resources and time to Vc Ethyl Ether because that combination delivers what both cosmetic formulators and finished product consumers demand.
Our approach has always leaned on close, practical relationships with technical teams buying our products. Every new partnership starts by walking through customer processes, understanding their equipment, constraints, and what their end users notice most. Unwelcome surprises—be it color drift, packing challenges, or cold flow—are fed back to the production and R&D teams immediately.
We rarely ship a new lot without feedback cycles and shelf testing data shared with our lead buyers. Changes to our production, packaging, or documentation stem from genuine frustrations voiced by users of the product. This collaborative loop—stretching from our synthesis teams, quality control specialists, all the way to customer application chemists—sets the pace for both incremental and substantial improvements.
Each year brings a new set of regulatory, raw material, and process risks. Spot shortages in precursor materials led us to establish multiple local and global supply relationships, maintaining continuity in volatile years. An unexpected rise in demand from Asia prompted a full review of our scale-up procedures; we streamlined our purification systems and doubled our finished goods warehouse space, avoiding backlogged shipments.
In customer-facing work, confusion over ingredient labeling and potential mixing with similar molecules, like sodium ascorbyl phosphate, prompted us to develop a transparent communication approach—complete with cross-referenced batch histories, third-party assay certificates, and clear origin data. These steps matter because trust is built over time, a fact any chemical manufacturer with a seasoned sales or technical support arm will recognize instantly.
Since establishing regular inter-lot comparison panels, process variations linked to seasonality or minor feedstock changes have dropped sharply. Real data on moisture content, particle size, and shelf retention gives our QA team benchmarks that reinforce confidence all the way to the end-user. For customers making products where brand reputation hangs on color, texture, and performance, these behind-the-scenes efforts mean fewer recalls and more repeat business.
We still see occasional supply setbacks, usually from regulatory shifts or logistics snags, but proactive relationship management and strong local freight links have kept these to a minimum. Routine customer visits—on both sides—mean problems get flagged before they escalate, an old-school approach that remains effective in a high-tech industry.
For most finished product manufacturers, ingredient reliability defines workflow planning and on-time launches. A major skin care brand needing to relabel due to ingredient instability faces lost weeks and wasted dollars. Because Vc Ethyl Ether lets brands avoid brown-creaming, clumping, or visible crystal fallout, product returns stay low and end-consumer trust stays intact.
In our own warehouse, we’ve seen strong signaling from contract fillers and private labelers: they order larger lots, expand storage, and set core product lines around dependable derivatives. The growth of Vc Ethyl Ether sales traces directly alongside the phase-out of old-fashioned ascorbic acid-based formulas in top-tier cosmetic ranges.
Having sat through roundtable discussions with both regulatory specialists and public-facing product safety reviewers, we know the interpretation of data and technical claims has become stricter in recent years. No batch leaves our plant without full traceability, and we urge every customer to audit us as deeply as they need. This transparency has closed trust gaps that previously slowed new projects or led to extended negotiation.
Demand for Vc Ethyl Ether likely will stay strong, on the back of both consumer trends and regulatory comfort with its use. As regulatory environments tighten and as the public focuses on experience, evidence, and authenticity, suppliers who offer pure, well-characterized, and responsibly manufactured ingredients will remain in good standing. Our focus will stay locked on chemical process improvement, sustainable practice, and direct feedback from technical and application teams worldwide.
From the shop floor to the end-user’s shelf, small choices in synthetic detail, packaging, and quality assurance ripple out into global results. As demand for high-quality Vitamin C products continues to rise, Vc Ethyl Ether stands as an example of how thoughtful modification, careful production, and long-term industry commitment can solve old problems and open new opportunities for products and people alike.
