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HS Code |
377760 |
| Chemical Name | N-Octyl-Diaminoethyl Glycine Hydrochloride |
| Molecular Formula | C12H28ClN3O2 |
| Molecular Weight | 281.82 g/mol |
| Appearance | White to off-white powder |
| Solubility | Soluble in water |
| Purity | ≥98% (HPLC) |
| Storage Temperature | 2-8°C |
| Ph Value | 5.0 - 7.0 (1% solution in water) |
As an accredited N-Octyl-Diaminoethyl Glycine Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of N-Octyl-Diaminoethyl Glycine Hydrochloride, securely sealed in an amber glass bottle, labeled with product details and safety information. |
| Shipping | N-Octyl-Diaminoethyl Glycine Hydrochloride is shipped in tightly sealed, chemical-resistant containers to prevent contamination and moisture absorption. The package is clearly labeled with hazard information and handled in accordance with local and international chemical transport regulations, ensuring safe delivery. Temperature and storage conditions are maintained as per the Safety Data Sheet recommendations. |
| Storage | N-Octyl-Diaminoethyl Glycine Hydrochloride should be stored in a tightly sealed container, protected from moisture and light. Keep it in a cool, dry place, ideally at room temperature (15–25°C). Ensure the storage area is well-ventilated and free from incompatible substances such as strong oxidizers. Follow relevant safety guidelines, and clearly label the container for laboratory or industrial use. |
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Purity 99%: N-Octyl-Diaminoethyl Glycine Hydrochloride with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high reaction yield and minimal impurities. Molecular Weight 277.86 g/mol: N-Octyl-Diaminoethyl Glycine Hydrochloride with a molecular weight of 277.86 g/mol is applied in surfactant formulations, where it provides optimal micelle formation and surface activity. Aqueous Solubility 25 mg/mL: N-Octyl-Diaminoethyl Glycine Hydrochloride with aqueous solubility of 25 mg/mL is used in cosmetic emulsions, where it enables homogeneous dispersion and stable emulsification. Melting Point 150°C: N-Octyl-Diaminoethyl Glycine Hydrochloride with a melting point of 150°C is incorporated into heat-resistant coatings, where it maintains molecular integrity under elevated temperatures. Stability Temperature 60°C: N-Octyl-Diaminoethyl Glycine Hydrochloride stable at temperatures up to 60°C is utilized in personal care formulations, where it ensures long-term product stability during storage and transport. Particle Size <10 µm: N-Octyl-Diaminoethyl Glycine Hydrochloride with particle size less than 10 µm is used in microencapsulation processes, where it enhances encapsulation efficiency and controlled release rates. Viscosity Grade 500 cP: N-Octyl-Diaminoethyl Glycine Hydrochloride with a viscosity grade of 500 cP is applied in gel-forming agents for medical devices, where it delivers optimal rheological properties and adhesive strength. pH Range 5-7: N-Octyl-Diaminoethyl Glycine Hydrochloride effective in a pH range of 5-7 is employed in dermal applications, where it supports skin compatibility and reduces irritation potential. |
Competitive N-Octyl-Diaminoethyl Glycine Hydrochloride prices that fit your budget—flexible terms and customized quotes for every order.
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In the specialty chemicals sector, some products demand not only purity, but reliability that extends through every drum, bag, or container we ship. N-Octyl-Diaminoethyl Glycine Hydrochloride (often called Octyl-DAEG HCl inside the industry) is a fine example of a chemical that answers a very technical need and rewards precision at every step. Our manufacturing team has followed this molecule through ongoing changes in market expectations, synthetic pathways, and regulatory oversight. Its unique structure combines the balance of amphiphilic properties with the mild, low-irritation characteristics, making it a dependable choice for specific formulations in personal care, pharmaceuticals, and fine chemical synthesis. The feedback we get from chemists and process engineers comes directly from hands-on batch testing, not from distributors or theoretical papers. After years in production, we know how its qualities stand out and which applications see the most benefit from our process refinements.
Unlike bulk commodity production, creating high-grade N-Octyl-Diaminoethyl Glycine Hydrochloride involves a series of process controls that leave little room for shortcuts. Each production run starts with an emphasis on raw material traceability and solvent management. The octyl group provides the right lipophilicity, making the compound valuable for its mild surfactant behavior and membrane-interacting capabilities. Our team has face-to-face knowledge of what happens during the critical coupling and subsequent purification stages: unwanted side products, moisture pickup, and variable yields show up if you take shortcuts or neglect reactor environment factors. We don’t hand off QC to outside labs — our in-house teams have seen every challenge, including batch-to-batch color shifts and salt formation issues, and we act on direct analytical data rather than trusting a “typical spec” from a paper. Years of practice mean we waste little and deliver consistently high-purity crystals or solutions as the customer requires.
Walk the floor with our tech team and you’ll hear a shared language around reliability. Experienced operators set the standard for N-Octyl-Diaminoethyl Glycine Hydrochloride by measuring appearance (fine white to off-white crystalline powder — yellowing means trouble during synthesis), water content (Karl Fischer checks for every lot), and HPLC purity (above 98% for specialty work). A few points in crystallization pH or hydrochloride molar ratio can shift the solubility and handling characteristics, so our process chemists monitor every control chart, not just the final number. Over- or under-drying brings up flow issues that slow customer processing lines, so we confirm bulk density and pourability before each container leaves our plant. We don’t guess about stability — every shipment comes with storage recommendations actually developed from our own shelf-life studies under real warehouse conditions.
N-Octyl-Diaminoethyl Glycine Hydrochloride serves as a cationic surfactant with mild bioactivity, offering smooth emulsification and solubilizing power even in systems where salt sensitivity matters. In our ongoing support for formulators, we’ve seen this product picked for mild personal cleansing products, dermatological bases, and as a critical building block in pharmaceutical intermediates. Its balanced hydrophobic–hydrophilic structure lets formulators target low-irritation performance close to the skin, something formulary teams report as a key benefit over more aggressive surfactants or quaternary ammonium compounds. The product’s hydrochloride salt form also means enhanced water solubility compared to parent amines, opening up clear solutions for gels, lotions, or injectables without clouding or phase separation. These facts didn’t arrive by guesswork — over years we’ve worked directly with process developers, exchanging feedback and even modifying particle size on request.
Some chemical suppliers pack generic product with the hope that “close enough” is fine downstream. In practical terms, we’ve experienced what happens when a participant in the value chain hands us off poorly handled material: inconsistent moisture leads to caking, trace contaminants trigger performance issues, and batch variance leads to downtime on end-user lines. Our plant managers treat consistency as a point of pride, not a checkbox. At each checkpoint — from initial feedstock acceptance to final milling and packaging — we carry out hands-on verifications. If a shift report flags anything outside of the norm, the batch stops for investigation. We never rely on paperwork alone; our operators and QC staff share a direct interest with each customer who sets their batch reactors, stirs their mix tanks, or samples finished products.
N-Octyl-Diaminoethyl Glycine Hydrochloride offers several advantages not easily duplicated by other surfactants or amino acid derivatives. Starting with the molecular structure: the octyl chain provides a balance between hydrophobic penetration and mildness. Other surfactants, especially older cationic agents, often show higher irritation levels or unstable profiles in saline-rich systems. Our product’s amine function linked to glycine brings inherent biocompatibility derived from the simplest amino acid scaffolding. We’ve had customers report measurable improvements in skin feel and lower reactivity with other ingredients, which matters for formulators seeking to reduce complaints or extend shelf life. The hydrochloride counterion introduces improved dissolution, especially important where clear gels or injectable intermediates are under consideration.
Over time, we’ve encountered manufacturers trying to swap in lower-cost alkylamines, simple fatty amine salts, or nonionic glycine derivatives to trim budgets. In every detailed field trial we’ve observed, those alternatives often cause shifts in viscosity, phase behavior, or stability under pH and temperature swings. Our product holds up across a range of real-world process conditions, which limits reject rates and rework. Much of this has come from direct dialogue across the supply chain — not just sales pitches, but trouble tickets, process audits, and cooperative troubleshooting. This back-and-forth lets us highlight practical differences in anti-static effect, mildness, and handling: areas that don’t show up in spec sheets but make a clear difference to plant technicians.
Investing in a product like N-Octyl-Diaminoethyl Glycine Hydrochloride doesn’t end with a certificate of analysis. Over the years, we’ve learned to maintain productive relationships with application scientists and process engineers from customer labs. Field testing sometimes turns up unexpected hurdles — a shift in final product color, a subtle off-note in fragrance, or unanticipated phase separation under specific conditions. Our technical teams meet these problems head on by re-examining our own process? and conducting joint trials with the customer. In a market flooded with generic compounds, we see that customers often circle back to us not only for the product, but for candid discussions about how best to tune their formulas, clean reactors, or even design storage warehouses to optimize shelf life.
This ongoing support has led to improvements in anti-caking treatments, packaging that really resists moisture intrusion, and even custom particle sizing to accommodate large-scale dispersion systems. Recently, we worked with a partner to optimize dissolution speed in high-throughput bottling lines by refining both crystal habit and particle size distribution. This sort of work doesn’t get done at arm’s length — it only happens because we keep open doors and a direct line between production and the people actually shaping finished consumer products.
Running a full-scale synthetic route for N-Octyl-Diaminoethyl Glycine Hydrochloride, especially under increasing scrutiny from regulatory agencies, uncovers hurdles that theoretical methods or pilot-scale protocols often gloss over. For example, disposal and recovery of organic solvents after alkylation and coupling reactions keeps tightening with each round of environmental regulation. We’ve spent years streamlining our solvent recovery and minimizing off-gas risks, including continuous monitoring and real-time waste stream analysis that our older lines never saw. These investments aren’t marketing points; they represent the tangible cost and operational changes needed to keep supplying a reliable product with every regulatory shift.
We also confront raw material shortages and pricing spikes, often driven by fluctuating commodities markets or supply chain interruptions. Competition for high-purity glycine, advanced alkylating agents, and hydrochloride sources puts stress on procurement. Our purchasing team develops local sourcing partnerships and creates buffer inventories to avoid stockouts. A few years ago, when Asian port closures threatened critical precursor shipments, our plant worked overtime to requalify alternate suppliers, keeping customer supply lines running with full traceability and unchanged analytical results.
Sustainable chemistry is no longer a branding slogan — it is a necessity for ongoing business. In retooling our N-Octyl-Diaminoethyl Glycine Hydrochloride manufacturing, we’ve tackled every emission stream, upgraded scrubbers and implemented on-site wastewater treatment facilities to capture and breakdown hazardous intermediates before discharge. These changes came out of direct review of local environmental impact reports and the feedback of neighboring communities. Our operators take pride in knowing their daily routines do more than meet government permit standards — they actively shrink our plant’s real-world footprint.
We’ve also worked with packaging engineers to replace legacy rigid containers with recyclable and reusable designs without compromising barrier properties. Customer feedback on container design, stackability, and emptying efficiency has shaped these choices, resulting in easier logistics, fewer transportation losses, and improved environmental profiles. We source our cardboard and pallet materials from suppliers who participate in regional recycling initiatives, closing the loop wherever possible.
Producing a compound involving multiple synthesis steps, active chloride reagents, and volatile solvents isn’t a theoretical exercise — it’s a demanding daily responsibility that calls for vigilance at every stage. Our staff walk into the plant with an understanding that protective measures matter as much as technical precision. We’ve learned through experience the importance of ongoing safety drills, real personal protective gear, and redundant monitoring (not just for exposure limits, but for process upsets or leaks). Our commitment to safety comes less from written policy and more from day-to-day observation and the real rapport between operators, supervisors, and maintenance teams. N-Octyl-Diaminoethyl Glycine Hydrochloride may seem a stable product at the customer end, but its production involves risks that only steady practices born of experience can control.
We’ve sharpened emergency preparedness thanks to drills that respond to near-miss scenarios — not just hypothetical simulations. Plant personnel contribute regularly to process hazard reviews, raising points that lead to active improvements, like upgraded fume extraction at charging points or smarter automation in solvent handling. Every innovation originates with the hands-on reality of chemical production, not distant HR mandates. Our workers’ insight feeds real changes, supporting product quality and safety in equal measure.
Over years of manufacturing N-Octyl-Diaminoethyl Glycine Hydrochloride, we’ve forged relationships based on support long after delivery. Troubleshooting production or product application issues, whether it’s a concern about minor color changes, unexpected precipitation, or storage failures, gives us practical chances to see where we can help further. Our technical team fields direct calls from plant managers and product developers — not filtered through distributors — and works through root-cause analysis when process fluctuations show up. It’s not unusual for us to send samples drawn directly from the main line or to conduct side-by-side comparisons before a customer's next batch. This flexibility is built from years of responding to urgent needs, last-minute spec changes, or technical advice requests.
Success in these technical partnerships comes from the willingness to get our hands dirty and own the hard parts of problem-solving. We know that if we help a customer stay online, resolve a suspension issue, or tune a mixing method, both sides save money and reputation is preserved. These lessons don’t appear in marketing copy; they’re earned through persistent day-to-day involvement and a problem-solving culture among our staff, chemists, and process engineers.
Our work with N-Octyl-Diaminoethyl Glycine Hydrochloride increasingly involves joint development with research partners seeking next-generation formulations. As new skin care trends emerge, product developers seek safer, more biodegradable surfactants or mild cationic additives that deliver without triggering regulatory or consumer pushback. We have supported pilot batches for clinical studies, provided scaled samples for toxicology and allergy testing, and streamlined cleanroom packaging for pharmaceutical intermediates. These advances come from close involvement with innovation labs, not just by-passive supply of standard product.
Several years back, we joined a project to produce a custom form of octyl-diaminoethyl glycine hydrochloride tailored to injectable formulations, eliminating trace metallic impurities below single-digit ppm. Our team tackled the analytical challenges, pressure-tested purification methods, and scaled production to kilogram lots within a tight timeframe. That experience underscored our approach: no innovation advances unless manufacturing backs it up. By handling new application prototypes or realigning crystal form for optimized solubility, we shape the trajectory of what’s possible in the wider specialty chemicals field.
We have built trust around our N-Octyl-Diaminoethyl Glycine Hydrochloride by being direct about everything from batch variability to impurities profile. Technical support teams routinely share chromatograms and spectral data with end users. Process improvement updates get reported not only internally, but with our largest partners, ensuring that tweaks and upgrades are transparent. If a procedural or synthetic route change arises, customers hear about it as soon as the plant does. This habit comes, again, from lived history: transparency builds confidence; surprises create risks no customer wants. Our best customer relationships grow from years of shared challenge, not from paper specifications.
Our production and delivery of N-Octyl-Diaminoethyl Glycine Hydrochloride do not run on theory alone. Each drum, batch, and support call represents cumulative hard-won skill and a direct line to supply-chain partners working under real-world conditions. We recognize the demand for precision molecules that can deliver low-irritation performance, consistent emulsification, and batch-to-batch stability. The product’s repeatability comes not just from a controlled synthetic pathway, but from the discipline — and creativity — drawn from everyone on the manufacturing side. Supporting our partners in pharmaceuticals, personal care, and research with unwavering quality has earned N-Octyl-Diaminoethyl Glycine Hydrochloride its place: not as a generic commodity, but as a material forged through know-how, resilience, and a steady commitment to real customer needs.
