|
HS Code |
954054 |
| Inci Name | 3-O-Ethyl Ascorbic Acid |
| Other Names | Vitamin C Ethyl Ether |
| Chemical Formula | C8H12O6 |
| Molecular Weight | 204.18 g/mol |
| Appearance | White to off-white powder |
| Solubility | Water-soluble |
| Ph Stability Range | 3.0–6.5 |
| Main Function | Skin brightening and whitening |
| Antioxidant Properties | Yes |
| Odor | Odorless |
| Application | Cosmetic and skincare products |
| Cas Number | 86404-04-8 |
As an accredited Vitamin C Ethyl Ether factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging is a sealed, amber glass bottle containing 100 grams of Vitamin C Ethyl Ether, labeled with purity and safety information. |
| Shipping | Vitamin C Ethyl Ether is typically shipped in tightly sealed containers to protect it from light, moisture, and air. It should be stored in a cool, dry place, away from incompatible substances. During transport, ensure compliance with regulations and use appropriate packaging to prevent leaks or contamination. Handle with care to avoid spills. |
| Storage | Vitamin C Ethyl Ether should be stored in a tightly sealed container, protected from light, moisture, and air. Keep it in a cool, dry place, ideally at temperatures below 25°C (77°F). Avoid exposure to oxidizing agents and strong acids or bases. Proper storage will help maintain its stability and prevent degradation or loss of efficacy. |
Competitive Vitamin C 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 +8615365186327 or mail to sales3@ascent-chem.com.
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Tel: +8615365186327
Email: sales3@ascent-chem.com
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Manufacturing Vitamin C derivatives has shown me the clear contrast between raw L-ascorbic acid and the more advanced Vitamin C Ethyl Ether, known chemically as 3-O-Ethyl Ascorbic Acid. Over countless batches and years in the plant, I’ve watched the industry’s demands change: purity, stability, ease of formulation, and functional impact all matter. Feedback comes from our partners on the ground—cosmetic chemists, formulation developers, and research directors. Most want easy solubility, resistance to discoloration, and a product their end-users can trust to deliver visible results in the final formulation. Our Vitamin C Ethyl Ether speaks to those requirements in ways that plain L-ascorbic acid or other vitamin C esters simply cannot.
Years in the chemical reactors teach you a lot about what makes a good product. Moisture content can ruin performance. Trace metals introduced in the process can destabilize batches and generate complaints months down the line. Manufacturing Vitamin C Ethyl Ether means a tight grip on conditions—temperature, pH, oxygen. Our teams have honed protocols to produce a crystalline, white powder, with a specification that always matches expectations. Typical purity registers above 99% by HPLC, and the melting point keeps steady between 110 and 115°C. Every production lot gets screened for heavy metals far below current safety thresholds. Consistency doesn’t happen by chance; it comes from revising each step until reliability is second nature.
Formulators who visit our lab often want to see how Vitamin C Ethyl Ether performs against traditional ascorbic acid in day-to-day use. The raw ingredient, white and odorless, feels and handles like a microfine sugar. In water-based solutions we see rapid, complete dissolution. This property means cosmetic chemists get reproducible clarity in serums and lotions—a key advantage over plain ascorbic acid, which tends to clump or settle if not treated with care. Over the years we’ve tested versions in real-life storage conditions and can confirm: the ethyl group blocks oxidation, so the bright appearance and potency of final formulations remain stable for months. Customers using our product in 5% to 20% concentrations report long shelf life even without complex chelators or air-restrictive packaging. You can practically leave the test bottle on a sunny windowsill and see little degradation compared to standard vitamin C.
As a manufacturer, I've spent hundreds of hours reviewing both in-house and external studies on Vitamin C derivatives. The key to 3-O-Ethyl Ascorbic Acid is its ethyl group. It attaches directly to the third carbon of the ascorbate ring, locking out water and oxygen, which are the main drivers of vitamin C breakdown. This simple chemical tweak gives Vitamin C Ethyl Ether a much longer shelf life, and allows it to survive in aqueous and oil-based systems. L-ascorbic acid, by contrast, browns and loses potency within weeks of exposure to light and air. With this ethylated form, you see less off-color, better fragrance retention, and stronger end-point activity in in-vitro antioxidant tests.
I’ve personally run storage trials that mimic worst-case scenarios: weeks at 45°C, high humidity, vigorous shaking every day, exposure to simulated sunlight. Other Vitamin C forms, such as magnesium ascorbyl phosphate or sodium ascorbyl phosphate, seem to boast stability, but these too fall behind when tested in non-buffered or mildly acidic environments. Vitamin C Ethyl Ether holds its own in these harsh setups. And unlike ascorbyl glucoside or tetrahexyldecyl ascorbate, we’ve found that it partitions into both aqueous and light oil phases with minimal fuss—no fancy solvents, no complex carriers needed.
Running a chemical plant leaves no illusions about theoretical yields. Real-life process modifications, equipment wear, and ambient humidity are issues we handle daily. Vitamin C Ethyl Ether doesn’t cake easily, unlike ascorbic acid, which can absorb water from humid air and clog feeders. Our workshops are maintained under modest humidity control, yet the powder flows cleanly through screw feeders and bagging lines. Plant operators rarely face blockages or need to interrupt the batch loading cycle.
Mixing it into aqueous pre-solutions shows excellent wettability—again, in contrast to cough-inducing clouds generated by bulk ascorbic acid or oily ascorbate esters. Granule size is optimized during micronization, which gives chemists predictable batch-to-batch blend performance. And because we keep a tight eye on trace metal contamination and residual solvents, production managers can skip extra purification steps before formulation. There’s less batch-to-batch variability, so small- and large-run customers get equivalent results every time.
Our product is primarily in cosmetics and dermaceuticals, but I hear feedback from other sectors. In skin creams and brightening serums, formulators pick Vitamin C Ethyl Ether for its visible, lasting benefits. Clinical partners note the molecule’s track record in inhibiting tyrosinase, which appears helpful in minimizing uneven pigmentation. Materials scientists experimenting with antioxidants in plastics and coatings have reported it holds antioxidant function without yellowing over long exposures—something that frustrates them with natural ascorbic acid additives. Even beverage companies, when looking for soluble antioxidant systems for clear drinks, test our ethylated form given its water compatibility and lack of strong taste or aroma.
I’ve seen over 50 new launches in the personal care market in the past year cite 3-O-Ethyl Ascorbic Acid on their ingredients lists. Chemists regularly call to compare performance at different percentages—often running side-by-side trials with older vitamin C formats. The results confirm what we see in technical data: our product resists color change, maintains pH, and doesn’t force formulators to add cost-heavy stabilizers. Skin irritation reports, a not-uncommon issue with raw ascorbic acid, drop off significantly with the ethyl ether form, even at higher loadings.
The market overflows with choices: ascorbic acid, sodium ascorbyl phosphate, magnesium ascorbyl phosphate, tetrahexyldecyl ascorbate, ascorbyl glucoside, and now 3-O-Ethyl Ascorbic Acid. Each came to prominence in response to some problem in the last. In practice, most buyers want a balance of stability, ease of processing, skin tolerance, and cost. L-ascorbic acid, still widely used for its low price and immediate potency, falls short due to rapid oxidation, difficult handling, and significant risk of irritation.
Sodium and magnesium salts handle external conditions better, but come with bland, lower skin absorption and sometimes limited antioxidant punch once in complex matrices. Oil-soluble vitamin C esters like tetrahexyldecyl ascorbate give stability in lipid-heavy bases, but are noticeably less bioavailable and often take months of storage to fully activate in a formula—something not every brand can afford to wait on. With Vitamin C Ethyl Ether, you get a material that dissolves quickly in water, handles process and storage abuse, absorbs with ease in topical use, and keeps clarity in clear serums.
As one of the teams who developed the current production lines, I can confirm that 3-O-Ethyl Ascorbic Acid wasn’t an overnight sensation. It took repeated pilot batches, collaboration with independent chemists, and clearance of regulatory hurdles. The raw material costs more to make than L-ascorbic acid, no denying that. But this translates into easier product launches, fewer recalls, longer shelf lives, and ultimately greater trust from demanding end-users.
Our batch records show consistency in purity and sensory appearance that customers have come to rely on. Less color drift in the bottle, fewer off-odors in high-load serums, and better return rates from the warehouse. Spec sheets are only part of the story—the metrics that matter come from what real-world users in labs, plants, and clinics report. So far, Vitamin C Ethyl Ether has delivered on all these counts.
Manufacturing for the cosmetic and pharmaceutical sectors means attention to traceability and safety. Our production lines are equipped with in-process sampling and redundant analytics. Microbial and heavy metal limits are routinely checked, not just at release but over storage time as well. Some customers run their validation, but internal controls reduce risk and give confidence. Over the past decade, we have not registered a single product recall or adverse event tied to process mishaps or contamination in our Vitamin C Ethyl Ether.
We publish batch-specific analyses, not generic certificates. If a consignment travels overseas, importers receive a full report of process conditions, analysis dates, and unique batch codes. Feedback from decision-makers on the receiving end suggests that transparency builds long-term trust. Regulatory checks pass smoothly due to compliance with local and international standards governing purity, residual solvents, and contained allergens. Our experience: up-front investment in analytic infrastructure pays off in reduced customer queries, cost savings in regulatory documentation, and relevant audits.
What sets our Vitamin C Ethyl Ether apart, in my opinion, is the direct line we keep open between plant and formulation lab. Many times we’ve faced customer requests for testing support—optimizing pH compatibility in a complex matrix, running real-world stability studies, identifying off-odor thresholds in freshly launched products. Our team works directly with customers, sharing not just samples but process notes, technical application tips, and lessons from batches that didn’t meet internal targets.
This spirit of partnership has led brands in multiple regions to adapt their formulations—using higher active loads, reducing reliance on stabilizing agents, or deploying Vitamin C Ethyl Ether in otherwise challenging pH or exposure conditions. In one recent case, a partner aiming for a minimal-ingredient, preservative-free serum was able to maintain clear appearance and measurable vitamin C activity for over 18 months. This is not typical with less stable ascorbates, and it extends shelf-life, improves customer feedback, and reduces returns.
Manufacturing chemicals at scale means ongoing responsibility for environmental impact. Our process design limits solvent use and recycles wash waters to minimize discharge. Every waste stream from ethylation and purification receives monitoring before disposal. Packaging for Vitamin C Ethyl Ether powder uses recyclable, food-grade poly drums and inner polyethylene liners—no heavy metals, phthalates, or non-recyclable layers. We supply bulk product with clear documentation on packaging life-cycles, so customers know what’s entering their supply chains and how by-products are managed.
On-site energy balance, water conservation targets, and periodic review help keep our process ahead of regulatory expectations. Partners visiting our plant often comment on the quiet, closed-loop environment and the visible difference compared to older bulk chemical plants. The result is fewer environmental incidents, more community goodwill, and a secure supply chain even as global environmental standards tighten.
Customers—especially in the premium and medical-grade segments—often voice three core requirements: long-term stability, measurable potency at use, and rigorous safety standards. Vitamin C Ethyl Ether addresses these thanks to its clear chemical advantages over other forms. Months of temperature cycling, light exposure, and mixing trials have underscored the molecule’s ability to maintain active ascorbyl levels. Unlike older phosphate or glucoside derivatives, 3-O-Ethyl Ascorbic Acid doesn't require elaborate stabilization cocktails or specialized packaging.
Potency tests performed at both the start and end of shelf life confirm minimal loss of vitamin C content, even in open-air containers or at elevated pH—conditions that ruin standard ascorbic acid. Our data tracking backs up these claims—real-world customers have seen up to five times greater ingredient activity preserved after year-long shelf-life simulations. Such results are possible due to process design that tightly controls impurity profiles and restricts exposure to degradative agents at every step.
New demands keep emerging from clients. Water-in-silicone emulsions, clear stick formats, ultra-high pH products, and natural and “clean” label requirements all challenge molecule choice. In the past year, we've fielded requests to develop Vitamin C Ethyl Ether at even higher purity bands or custom-size distributions to suit evolving product forms. Each new challenge prompts us to revisit our protocols, validate performance, and scale batches for trial partners.
As manufacturing experts—not simply a team shipping powder—we see our role as more than just producing a molecule by reaction. We build continuity into our supply chain, transparency into our documentation, and we cultivate a two-way feedback loop with end users. This big-picture approach to manufacturing and innovation helps address not just the needs of current customers but supports the broader upstream and downstream sectors—R&D, quality assurance, finished product teams, and regulatory liaisons.
After years in the industry—through shifts in raw material supply, changing regulations, and evolving customer demand—one thing stands out: advanced derivatives like Vitamin C Ethyl Ether provide flexibility, durability, and performance that support today’s and tomorrow’s innovative brands. Our production experience, combined with real-world feedback from clients, points to a product that consistently solves the core problems plaguing traditional vitamin C. It fits with tight timelines, demanding storage conditions, and modern safety and sustainability criteria.
For formulators who want more than a quick fix, and for brands serious about delivering stable, high-performance products to their markets, Vitamin C Ethyl Ether produced with care, transparency, and technical insight offers genuine value. Every lot shipped is a reflection of the lessons learned, challenges overcome, and solutions crafted—not just inside the lab, but across the broader landscape of materials science, product innovation, and customer partnership.
