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All Right Reserved
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HS Code |
732928 |
| Cas Number | 70161-44-3 |
| Molecular Formula | C10H21NO2 |
| Molecular Weight | 187.28 g/mol |
| Iupac Name | 2-(Octylamino)acetic acid |
| Appearance | White to off-white powder |
| Solubility | Insoluble in water, soluble in organic solvents |
| Melting Point | 60-62°C |
| Purity | Typically ≥98% |
| Ph 1 Solution | 5.0-7.0 |
| Storage Temperature | 2-8°C |
| Synonyms | N-Octylglycine |
| Odor | Odorless |
As an accredited Octyl Glycine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Octyl Glycine is packaged in a 500g sealed amber glass bottle with a secure screw cap, labeled with hazard and handling information. |
| Shipping | Octyl Glycine is shipped in secure, sealed containers to prevent contamination and moisture absorption. Packaging complies with relevant chemical transportation regulations. Containers are clearly labeled with hazard and handling information. The product is typically transported via road, air, or sea freight, ensuring protection from heat, direct sunlight, and physical damage during transit. |
| Storage | Octyl Glycine should be stored in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers. Keep the container tightly closed and protected from moisture. Store at room temperature and avoid exposure to direct sunlight or sources of heat. Ensure proper labeling and secure storage to prevent leaks or spills, adhering to relevant safety regulations. |
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Purity 98%: Octyl Glycine with 98% purity is used in cosmetic emulsifiers, where it enhances formulation stability and skin compatibility. Molecular Weight 229 g/mol: Octyl Glycine with a molecular weight of 229 g/mol is used in surfactant systems, where it improves solubilization efficiency and reduces surface tension. Melting Point 42°C: Octyl Glycine with a melting point of 42°C is used in personal care creams, where it facilitates smooth blending and uniform texture. Viscosity 150 mPa·s: Octyl Glycine at 150 mPa·s viscosity is used in shampoo formulations, where it boosts foam formation and viscosity control. Particle Size <10 µm: Octyl Glycine with particle size below 10 µm is used in dermal delivery systems, where it promotes rapid absorption and penetration. Stability Temperature 80°C: Octyl Glycine with 80°C stability temperature is used in industrial cleaning agents, where it maintains performance under heat stress. Water Solubility 12 g/L: Octyl Glycine with water solubility of 12 g/L is used in pharmaceutical preparations, where it ensures homogeneous mixing and bioavailability. pH Range 5-7: Octyl Glycine operating in pH range 5-7 is used in liquid detergents, where it maintains product efficacy and minimizes degradation. |
Competitive Octyl Glycine prices that fit your budget—flexible terms and customized quotes for every order.
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Octyl Glycine plays a unique role in modern chemical production. Over the years, our teams have worked alongside customers in fields as varied as specialty surfactants, metalworking fluids, textile treatment, and personal care. We’ve watched closely as the expectations for purity, consistency, and dependable delivery have risen higher in every sector, and we approach Octyl Glycine’s manufacture with that reality in mind.
To put it plainly, Octyl Glycine is an N-alkylated amino acid. By attaching an octyl group to the glycine molecule, we create a compound that marries the reactivity and flexibility of simple amino acids with the extended hydrophobic tail of octyl groups. This hybrid structure gives Octyl Glycine a set of performance parameters that set it apart from typical amino acids or linear fatty amines. We manufacture a high-purity grade, with an emphasis on minimizing side products like unreacted glycine, over-alkylated species, and catalyst residues. This attention to purity supports more predictable processing in downstream applications.
Each batch passes rigorous internal quality checks. For instance, the typical content of the active ingredient falls above 98%. Moisture control is essential—excess water can disrupt formulation, especially in applications where Octyl Glycine participates directly in chemical synthesis or interfaces with sensitive substrates. Our process guarantees low water content, usually under 0.5%. We keep ash lower than 0.2%. Color and odor also matter; off-odors or yellowish tints hint at degradation or contamination, so we keep these strictly within our specs. Assay values and chromatographic purity data back up each shipment, giving technical teams reliable reference points.
In our line, the details matter. Raw materials can make or break product stability and reactivity. We source our octylamine from established upstream producers who can show us their batch records and histories. For glycine, we require traceability back to primary synthesis. Control at this early stage translates to less rework at finishing, fewer off-spec drums, and less waste to treat. Over time, we’ve tightened controls on temperature, pH, and feed rates in our reactors to avoid side reactions, foaming, and yield loss. Every operator on the line knows what to watch for, and the data from decades of production experience sits behind each adjustment.
Octyl Glycine often finds its way into specialty surfactant packages, detergent additives, corrosion inhibitors, textile auxiliaries, and select cosmetic formulations. In metalworking fluids, it performs as a corrosion inhibitor and helps maintain emulsion stability—two key issues that cost downstream users time and money if neglected. In textile processing, we’ve seen Octyl Glycine deliver more uniform wetting and leveling, without introducing issues during dyeing. In personal care and body wash bases, Octyl Glycine’s mildness and low toxicity put it ahead of harsher surfactant choices.
Weighing Octyl Glycine against other amino acid derivatives and classic fatty amines shows clear differences that matter in the field. Where lauryl glycine or decyl glycine bring different chain lengths to the molecule, Octyl Glycine delivers a balanced profile: enough hydrophobicity for surface activity, without moving fully into waxy or poorly soluble territory. Compared to straight chain octyl amine, the glycine backbone improves compatibility with both aqueous and non-aqueous systems, while reducing volatility and locked-in odor. We have customers who switched from regular amines and noticed greater process flexibility and safer handling thanks to Octyl Glycine’s lower vapor pressure and gentler reactivity.
Our packaging line bottles Octyl Glycine under nitrogen to reduce oxidation. It leaves our plant in high-density polyethylene drums, clean and lined to avoid trace contamination from earlier cargo. Storage matters—too much heat risks color formation or hydrolysis, while excess humidity brings in the threat of clumping and inconsistent flow. We advise customers to store drums at moderate temperature, out of direct light, and tightly sealed between uses. Many operations now fit their warehouses with remote condition monitoring, ensuring quality up to the moment of use.
We document every batch with full traceability. Our documentation links raw material origin, synthesis dates, analytical protocols, and full safety data. For sectors like cosmetics and food-contact materials, compliance doesn’t just mean ticking off a checklist. We’ve had regulatory teams review our synthesis methods and impurity profiles; transparency and access matter. We register key grades in major chemical inventories where demanded and can support compliance statements as needed for international shipments.
No quality control protocol outstrips the value of seasoned operators who know the chemistry inside out. At our facility, operators spot deviations faster than any algorithm—hints of color shift, a mild change in odor, or slight irregularities on the foam line tell us more about product health than numbers on a screen. Continuous training keeps our crew sharp on both safety and quality routines. By building proactive checklists, we catch and address drift before it leaves the line. Every operator knows the downstream impact of impurities and inconsistent batches, and that responsibility drives our approach from maintenance through to shipping.
Growing scrutiny on chemical footprints motivates us to optimize at every step. Octyl Glycine’s synthesis traditionally calls for energy- and water-intensive stages. Over the last decade, we reduced water consumption by over 20%, recycling steam and using heat exchangers along the entire reaction profile. We’ve partnered with solvent recyclers to fetch back usable organics and cut down hazardous waste. Our manufacturing teams routinely audit emissions to stay ahead of tightening environmental standards. Cleaner water, lower emissions, and better solvent recovery are not checkboxes—they’re improvements that help us deliver confidence to our downstream users.
Anyone buying chemicals over the last five years has watched supply chains swing wildly. From pandemic disruptions to raw material shortages, we learned the value of strong supplier relationships and redundancy. For Octyl Glycine, we run qualifying campaigns for all incoming critical reagents, mapping out backup suppliers and validating each alternative. By building inventory buffers, we help customers avoid calendar gaps and manufacturing stoppages. This stability has allowed our partners in high-throughput sectors like automotive fluids and textile production to plan with more confidence. The human investment in partnerships and process validation pays dividends in product reliability.
Feedback from customers drives our product development. Over dozens of pilot projects, we’ve tweaked catalysts, reaction conditions, and purification protocols to reach the best blend of cost, performance, and purity. Some customers push for even higher purities, where trace metal content and residual solvents reach stricter thresholds. In these situations, we work closely with technical teams to sample pilot lots and validate new grades. Our R&D chemists engage face-to-face with end users on the plant floor—and those conversations matter more than remote lab reports.
From first fills to production scaling, users confront challenges like phase separation, incomplete reactivity, and off-odors. Our technical support staff walks lines with process engineers to identify root causes—whether it’s trace iron inducing oxidation, or incompatible blending temperatures. In many cases, slight tweaks in Octyl Glycine’s handling or pre-mixing protocols solved persistent hurdles that lab-scale tests didn’t catch. The practical sharing of results and field anecdotes helps set realistic expectations.
As regulatory frameworks shift between Asia, Europe, and the Americas, we listen closely to evolving requirements. One region might clamp down on residual solvents, while another stresses trace allergen control. Over time, we’ve broken out production campaigns designed specifically for target markets, making careful adjustments to meet unique import requirements and disclosure norms. Direct conversations with regional users help us pick up on local processing trends—those tiny tweaks in reactor cleaning, intermediate storage, or blending steps that can make or break a successful launch.
Customers that switched from commodity amines to Octyl Glycine often report smoother blending and lower generation of persistent foams. In high-shear settings, Octyl Glycine helps reduce agglomeration risks among waxy or high-molecular surfactant blends. Downstream effects such as reduced tank cleaning frequency and less need for defoamers add up, cutting operating costs and downtime. In corrosion inhibition and textile dyeing, the difference in final product performance shows up directly—better corrosion control in finished parts, sharper and more even colors in treated fibers.
Worker safety stays at the core of our operations. Octyl Glycine’s profile makes it easier to handle safely compared to more reactive amines or harsh surfactants. Its low volatility reduces inhalation concerns, and skin contact concerns remain lower than with related substances. We train our teams not just in chemical handling but also in spill response and personal monitoring, building a culture where questions get answered and issues reported fast. Our history of near-miss reporting and rapid adjustments reflects a focus on continuous safety improvement, not just legal compliance.
Every link in the chain, from sales managers to plant technicians, stays ready to answer customer questions. If a shipment falls outside standard spec, we flag it immediately and begin root-cause review with the client. Open communication saves both sides time and builds real-world loyalty. Our reputation for candor has earned us continuing relationships in sectors that tolerate little margin for error—especially pharmaceutical intermediates and regulated industrial products. Being proactive about communicating changes, shipment anomalies, or new formulation data pays off in both directions.
Packaged in tamper-evident drums and pails, each load comes with full batch paperwork. On request, we supply sampled lots or smaller containers for pilot plant runs and R&D lines. Our technical bulletins outline safe handling, but we add value by troubleshooting alongside our customers as they scale up. For processes sensitive to trace moisture, we lay out practical steps to reduce pickup and suggest pre-conditioning where needed. These simple measures cut the risk of failed batches and unknown in-process variability.
Each user’s formulation handles differently. In systems requiring tight pH control, Octyl Glycine provides both buffering capacity and surface-active properties. Some clients leverage its ability to act as a coupling agent, bridging otherwise incompatible bases and improving final mix quality. In labs experimenting with next-generation surfactant blends, it acts as an anchor molecule, improving emulsion stability and extending product shelf life. Our formulation chemists enjoy sharing ideas and running side-by-side performance evaluations, short-circuiting common problems before they disrupt full-scale runs.
Compared with longer-chain derivatives, Octyl Glycine occupies a sweet spot—long enough to bring hydrophobic and compatibility advantages, short enough to avoid solidification problems. Where heavier homologs like decyl or lauryl glycine risk low-temperature crystallization or challenging melting points, Octyl Glycine stays reliably pourable and easy to blend at typical plant temperatures. In surfactant and detergent applications, users note faster solubilization and fewer dosage adjustments. Where classic alkyl amines can bring unwanted reactivity and sharp odors, Octyl Glycine’s lower amine content and built-in acid group lead to milder formulations.
Price trends in the market fluctuate, yet customers tell us stability carries more weight than chasing the last cent. Having a reliable partner for Octyl Glycine—one who guards against batch variability and unknown substitutions—lets manufacturers run longer campaigns and reduce surprises. Our purchasing team keeps a close eye on both global market data and practical, boots-on-the-ground updates from our own plant. Spot shortages encourage prudent buffer stocking, but more importantly, mutual visibility between us and buyers helps balance the need for volume discounts and secure supply.
Regulatory change never stops. The need for detailed impurity profiles or lower allowable levels of byproducts keeps us on our toes. Each shift pushes us to review synthesis pathways and analytical protocols. By investing in up-to-date analytical equipment, we qualify for fast-track registration in more markets. This preparedness removes roadblocks for customers whose products ship internationally. Our compliance officers update the team weekly, reviewing new letters from global agencies and translating them into practical steps for plant teams and documentation staff.
Our journey with Octyl Glycine never stands still. Process engineers, lab chemists, and end users provide new feedback every month. Each learning turns into a process tweak, a quality checklist, or a new grade of Octyl Glycine for emerging uses. We keep laboratory, pilot, and production teams in close communication so no lesson goes unshared. The practical knowledge of safe, effective, and consistent manufacturing remains our biggest asset.
By making Octyl Glycine in-house, controlling every production stage, and acting on feedback from manufacturing partners, we provide more than a molecule—we deliver reliability, experience, and accountability in every drum. Your processes rely on chemistry that delivers performance batch after batch, and after decades in the field, we continue to raise our standards to meet yours. If you face hurdles or need answers, our team stands ready to help, bringing field-tested know-how to every conversation.
