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All Right Reserved
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HS Code |
640021 |
| Productname | 6-Amino-Hexanoic Acid |
| Casnumber | 60-32-2 |
| Molecularformula | C6H13NO2 |
| Molecularweight | 131.17 g/mol |
| Synonyms | Epsilon-aminocaproic acid, Aminocaproic acid |
| Appearance | White crystalline powder |
| Meltingpoint | 204-205 °C |
| Solubilityinwater | Freely soluble |
| Ph | 5.5-7.0 (1% solution) |
| Boilingpoint | 313.6 °C |
| Density | 1.12 g/cm³ |
| Odor | Odorless |
As an accredited 6-Amino-Hexanoic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 6-Amino-Hexanoic Acid, 100g: Supplied in a tightly sealed, amber HDPE bottle with clear labeling for safety, handling, and storage instructions. |
| Shipping | 6-Amino-Hexanoic Acid is shipped in tightly sealed containers to prevent moisture absorption and contamination. It should be transported in accordance with local regulations for non-hazardous chemicals, kept in a cool, dry, and well-ventilated area, and handled with appropriate protective equipment to ensure safety during transit and storage. |
| Storage | 6-Aminohexanoic acid should be stored in a tightly sealed container, away from moisture, heat, and direct sunlight. It should be kept in a cool, dry, and well-ventilated area, separated from incompatible substances such as strong oxidizers and acids. Proper labeling and access restriction are recommended to ensure safety and prevent contamination or accidental ingestion. |
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Purity 99%: 6-Amino-Hexanoic Acid with 99% purity is used in pharmaceutical formulations, where it ensures consistent therapeutic efficacy. Molecular Weight 131.18 g/mol: 6-Amino-Hexanoic Acid at 131.18 g/mol is used in peptide synthesis, where it facilitates precise molecular incorporation. Melting Point 205°C: 6-Amino-Hexanoic Acid with a melting point of 205°C is used in thermally stable polymer production, where it maintains integrity at elevated processing temperatures. Particle Size ≤ 50 µm: 6-Amino-Hexanoic Acid with particle size ≤ 50 µm is used in granulated tablet manufacturing, where it enables improved blend uniformity. Stability Temperature up to 80°C: 6-Amino-Hexanoic Acid stable up to 80°C is used in biologic enzyme assays, where it ensures activity retention during experimental procedures. Aqueous Solubility 1.5 g/100 mL: 6-Amino-Hexanoic Acid with aqueous solubility of 1.5 g/100 mL is used in injectable drug preparations, where it allows for high-concentration formulations. Low Endotoxin Level <0.25 EU/mg: 6-Amino-Hexanoic Acid with endotoxin level <0.25 EU/mg is used in cell culture applications, where it reduces the risk of cytotoxic contamination. Viscosity Grade Low: 6-Amino-Hexanoic Acid with low viscosity grade is used in topical medical gels, where it promotes easy application and rapid absorption. |
Competitive 6-Amino-Hexanoic Acid prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
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Tel: +8615371019725
Email: admin@sinochem-nanjing.com
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Years of hands-on production experience show that working directly with end users offers some big advantages. Our plant operates continuously and we focus on a single goal: delivering consistent 6-amino-hexanoic acid, recognized in the industry for its reliable performance in both research and applied chemistry settings. Each batch arrives with main assay levels that meet strict standards so users don’t face guessing games or compromise outcomes.
Our main product model, classified under its chemical formula C6H13NO2, runs at a stated purity that’s verified by qualified analysts under rigorous, traceable lab routines. The typical appearance ranges from a crystalline powder to granules, all free-flowing and untainted by off odors or visible impurity. Granulation and particle size are a function of the actual production batch, not a matter of cosmetic upgrades. Packing and transport are handled internally—no repackaging, no third-party cross-contamination.
The difference between production at source and third-party handling becomes clear in repeat performance. Multiple batches over years reveal trends, not just outliers. Any drift outside specification means trouble for our own line and for downstream users. Our team reads the process logs daily, tweaks operational temperatures, and keeps water content tightly controlled at every stage. It’s simple: we need clear, colorless product, with minimum moisture and a crisp melting range. Any haze or color shift means we halt and investigate, correcting at source before release.
Analysis extends into every area—titration, elemental composition, and analysis for organic trace contaminants. By keeping these internal, results reach the customer faster and with fewer interruptions. With over a decade refining both process and logistics, we cut out the confusion that follows when chemicals bounce between warehouses or suffer from inconsistent labeling. The same faces oversee purification and packaging, so even subtle changes in texture or flow aren’t ignored. Product experience in R&D, pilot, and full commercial runs gets passed down, not lost across departments.
6-Amino-hexanoic acid stands apart in the field for its ability to inhibit the breakdown of fibrin. Direct users in pharmaceutical manufacturing benefit where a robust anti-fibrinolytic effect is needed to manage bleeding. Because of its simple aliphatic structure, users see reliable solubility in water, which supports quick formulation and minimizes dissolving delays during urgent compounding. Our product attracts researchers and manufacturers looking for consistency over a broad range of pH—stability in solution means fewer surprises during shelf-life studies or late-stage product registration.
Downstream, the bulk of usage sits in pharmaceutical and clinical products, acting as a crucial component in injectable or oral therapies. Many well-known brands rely on production batches where trace impurities run below 0.1%. This kind of attention to process improvement only comes from deep familiarity with the process, not from repackaging finished goods. Physical tests ensure that particle size fits most automatic feeders or filling lines—never clumping, always measured for a sharp, dry-powder break.
Other customers cross over from textile and industrial stabilization chemistry. In these cases, the backbone of the molecule allows for smooth polymer interactions or anti-corrosion applications, and predictable melting characteristics translate to stable integration profiles. Food safety or cosmetic incorporation is not a given, and we stick to batches slated technically and legally for use in regulated environments. We recognize our limits and advise accordingly based on request, with documentation for each step.
Many end-users compare 6-amino-hexanoic acid with epsilon-aminocaproic acid, both sharing close chemical lineage but showing key differences in practical production and performance. Where the latter sometimes suffers from less predictable melting points or lower solubility, our 6-amino-hexanoic acid emerges from a refined crystalization sequence, delivering tighter melting range reproducibility. Buyers who try products obtained through third-party channels often report yellowing, off-odors, or unexpected insolubles—usually the result of incomplete drying or poor handling during shipping.
Running a manufacturing plant brings first-hand encounters with supply chain interruptions, customer feedback, and occasional product misuse. We hear from users who discover that alternatives fail under higher temperatures, or that particle sizes block automated lines. Quality control teams learn that “almost right” doesn’t cut it when faced with pharmaceutical regulatory audits. This is why we keep documentation ready for traceability, and we regularly review regulatory changes—no batch leaves until all sheets track back from raw feedstock, through processing, to finished lot.
Unlike some commodity products, our approach doesn’t chase lowest cost at the expense of downstream usability. Customers regularly ask about the trade-off between tightening production specs and cost stability. From factory-floor experience, shaving a cent off cost today often means spending far more in waste, downtime, or regulatory setback tomorrow.
Raw materials define the character of the product. We receive shipments of hexanoic acid and ammonia under a system that tracks lot origin, certificates of analysis, and prior handling records. Only after incoming material passes a colorimetric and compositional screen does it enter the synthesis stream. Staff chemists run titration and chromatography batches themselves, checking not just assay levels but also for sneaky trace solvents, inconsistent pH, or surface residue.
The manufacturing space—kept under overpressure and tight humidity tolerances—removes air dust, improving purity. Operators consistently cycle glassware and stainless assemblies through validated cleaning, documented every shift. Output is sealed immediately in lined drums or foil bags, labeled only after full test clearance. Nothing sits open on a shelf to absorb ambient moisture, which can trigger slow hydrolysis and degrade the product’s effectiveness.
Our team keeps an eye on every stage from raw handling to product shipment. Moisture brings headaches not just for us but for every one of our customers. During packing, batch samples go through Karl Fischer titration, ensuring water levels don’t sneak above specified limits. Over a damp spring, if results drift from target, we halt the entire line for air system recalibration, even turning down orders if quick correction isn’t possible. This attitude keeps not only lab data tight, but also reassures repeat customers who rely on our shipments for their production schedules.
Handling stability means 6-amino-hexanoic acid still flows as a powder after weeks in storage. It resists caking and keeps from picking up foul odors. This isn’t luck; it’s the combination of well-controlled crystallization and quick, precise packaging. Over time, repeated experience flagged trouble sources like slow cooling rates and uneven slurry mixing. Now, batch records reflect refined timing, agitation speeds, and filtration media. Site visitors often remark on the absence of chemical haze or scattered dust, the result of clean handling and methodical staff habits.
Being the actual manufacturer creates a dynamic feedback loop few traders ever see firsthand. End users don’t hesitate to flag any deviation, even ones that only show up in specific applications. We maintain a running dialogue—questionnaires, sample logs, and even on-site visits—learning about equipment bottlenecks, shelf-life preferences, and bottling particulars.
Changes in downstream equipment can force us to adjust grind size or drying protocols. One pharmaceutical partner flagged flow variations that correlated to packaging line adjustments at their facility. Thanks to direct engagement, we traced back the issue, altered our dry powder handling sequence, and restored reliable output without major downtime on either side. These experiences don’t just improve our product—they reinforce the trust that comes with long-term supply partnerships.
Markets shift and regulatory frameworks evolve. Staying close to both supply and compliance teams helps us keep a step ahead. Weekly internal reviews cover the latest changes in pharmacopeia or QA protocols. Our documentation starts with every batch, tagging back to raw material COAs, in-process logs, and final test results. This traceability isn’t just a paperwork exercise; it’s the backbone for audits, recalls, or customer-specific compliance checks.
Multi-level product labeling meets or exceeds current GHS and hazard communication standards. Our packaging partners receive advance notice about format changes, ensuring end-users don’t face confusion when documentation or barcodes update. By maintaining tight control from synthesis through delivery, we avoid pitfalls of rebranded or repacked material—where loss of origin means headaches for anyone dealing with regulatory agencies.
Manufacturing chemicals to specification also means managing responsibility for the environment and workplace safety. Our plant doesn’t just comply with local emissions requirements; we collect and reuse process solvents in a close-loop system, cutting down waste and exposure to staff. Production lines prioritize low-residue cleanup, and air monitoring systems keep levels below the latest exposure guidelines.
During early years, our waste teams struggled with ammonium byproduct neutralization; now, in-process pH balancing and advanced scrubbing capture most emissions at the point of generation. Routine upgrades shift us closer to closed-system handling, reducing staff exposure and product contamination in kind. These investments go beyond regulatory mandates; they feed back into product quality by trimming the risk of trace residuals that can reach sensitive end-use applications.
Building long-term supply relationships requires more than data on a spec sheet. Each lot and delivery reconnects us with customer teams, R&D labs, and process managers who feed back hard data from live production trials. We document product characteristics that matter to large-scale users, not just lab or pilot clients. This might include compatibility with solvent transfer pumps, reactivity under high shear, or ease of dispensing under controlled environments.
We also track how our 6-amino-hexanoic acid behaves in storage and in field use over months, not just weeks. Calls about caking, changes in pourability, or subtle differences in color trigger review along the plant workflow. Sometimes the answer lies with the user’s facility environment—but we check everything we control to make sure issues don’t get repeated. Over years, this habit of immediate feedback and detailed internal tracking has reduced returns, minimized complaints, and led to new partnerships where rigorous process beats ad-hoc trading.
We treat process improvement as an ongoing commitment, not a one-time declaration. Batches undergo spot retesting, sometimes pulled ahead in the rotation to verify aging trends. Teams compare current batch performance to historical data, and every operator can raise red flags without delay from management layers. Equipment upgrades, automation tweaks, or even layout redesigns are all considered when data points shift, not as philosophy but as a response to direct, repeatable evidence.
Long-term users of our 6-amino-hexanoic acid learn the difference between buying from the actual manufacturer and picking a name off a reseller’s site. Internal production drives tighter oversight, faster course correction, and more reliable support across changing industry needs. We rely on the judgment of operational staff, chemists, and customer teams, each learning from shared experience about what makes an order stand out or a batch stay “on spec” under tougher scrutiny.
In the end, chemical manufacturing rests on repeated, hands-on work—on floors that run day and night, not on disconnected spreadsheets. Our experience shows that close attention to process detail, raw material management, and user feedback builds credibility that no third-party handler can match. 6-amino-hexanoic acid remains a specialty chemical where shortcuts cost dearly; consistent manufacturing offers solutions—batch after batch—to real-world process demands.
