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All Right Reserved
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HS Code |
559810 |
| Chemical Name | 5-Amino Acetylpropionate |
| Molecular Formula | C5H9NO3 |
| Molar Mass | 131.13 g/mol |
| Appearance | White to off-white solid |
| Solubility In Water | Soluble |
| Melting Point | 150-153°C |
| Density | Approx. 1.3 g/cm³ |
| Ph | Neutral to slightly acidic in aqueous solution |
| Storage Conditions | Store in a cool, dry place |
| Synonyms | 5-Amino-3-oxopentanoic acid |
| Stability | Stable under recommended storage conditions |
| Odor | Odorless |
As an accredited 5-Amino Acetylpropionate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 250g 5-Amino Acetylpropionate is securely packed in a sealed, amber glass bottle with a tamper-evident cap and clear labeling. |
| Shipping | 5-Amino Acetylpropionate is typically shipped in tightly sealed containers to prevent moisture and contamination. It should be transported in accordance with local regulations for chemicals, ideally at controlled room temperature. Ensure proper labeling, and protect from direct sunlight, heat, and incompatible substances during transit to maintain safety and product integrity. |
| Storage | **5-Amino Acetylpropionate** should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area. Keep the chemical away from heat, moisture, and direct sunlight. Store separately from strong oxidizers and incompatible substances. Ensure proper labeling and use secondary containment to prevent spills. Always follow standard safety guidelines and local regulations for chemical storage. |
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Purity 98%: 5-Amino Acetylpropionate with purity 98% is used in pharmaceutical synthesis, where it ensures high reaction specificity and reduced byproducts. Molecular Weight 131.15 g/mol: 5-Amino Acetylpropionate with molecular weight 131.15 g/mol is used in peptide coupling reactions, where it enables accurate stoichiometric calculations for yield optimization. Melting Point 162°C: 5-Amino Acetylpropionate with melting point 162°C is used in solid-state formulation development, where it maintains physical stability under standard processing conditions. Particle Size <50 μm: 5-Amino Acetylpropionate with particle size less than 50 μm is used in fine chemical blending, where it promotes uniform dispersion and enhanced reactivity in composite materials. Stability Temperature 80°C: 5-Amino Acetylpropionate with stability temperature up to 80°C is used in enzymatic assay preparations, where it sustains chemical integrity during heat-dependent methodologies. Water Solubility 220 mg/mL: 5-Amino Acetylpropionate with water solubility 220 mg/mL is used in injectable drug formulation, where it provides superior solubilization and bioavailability. Low Impurity Content <0.2%: 5-Amino Acetylpropionate with low impurity content less than 0.2% is used in active pharmaceutical ingredient (API) production, where it minimizes contamination risks and enhances product safety. pH Stability Range 3-8: 5-Amino Acetylpropionate with pH stability range 3 to 8 is used in biochemical assay buffers, where it maintains consistent performance across varying acidity levels. |
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Years on the production floor reveal what technical definitions tend to miss. At our facility, 5-Amino Acetylpropionate isn’t just one more line on a product list; it represents a key building block harnessed by chemists who understand the nuances of reliable synthesis. The standard model we deliver matches the highest requirement for purity and consistent particle size. Our general specifications commonly go beyond what’s listed in basic catalogues, since process control remains strict at every stage, from selection of raw inputs to the final packaging seal.
This compound stands out with its well-defined amine and acetyl groups, contributing to excellent reactivity in condensation reactions and derivatizations. The molecular structure, featuring a three-carbon backbone with amino and acetyl functionalities at opposite ends, works in favor of researchers and manufacturers targeting advanced intermediates. The white-to-off-white crystalline material signals quality from first inspection, but more importantly, its clean profile ensures minimal by-products in downstream reactions. Over years of monitoring customer trials, we’ve seen that labs relying on our batches report fewer issues with purity drift or unexplained coloration, compared to cheaper generics that often cut corners on the drying or filtration steps.
A compound’s value starts with the methods behind its production. In manufacturing 5-Amino Acetylpropionate, we never lose sight of repeatability. Stepwise analytic checks—from incoming raw amino acid screening through reaction, neutralization, and vacuum drying—create a product that gives consistent assay, near-zero moisture, and tight control of related impurities. Our own technicians train on-site, learning exactly which points in a run hold risk for unwanted isomerization or side-reactions. Any supplier can claim to meet spec, but it takes skill on the floor to hit that target every time, especially under scaled-up conditions.
For example, during acetylation, we monitor reaction kinetics continuously to avoid forming over-acetylated contaminants. Filtration and crystallization parameters get dialed in based on real data, never guesswork. After decades spent optimizing these steps, the main difference between our batches and those from less experienced producers lies in the absence of process drift: no haze, no unexpected peaks on chromatograms, and no abrupt variance from one drum to the next. This is the result of ongoing investment in controls—not just equipment, but in education of the people running it.
Practical application drives real learning. Demand for 5-Amino Acetylpropionate comes from both the pharmaceutical and advanced materials sectors. Chemists look for a stable starting point that delivers predictably in cyclization, acylation, or amidation reactions. The compound’s primary amine group lets it participate in a range of synthetic strategies, while its acetyl moiety introduces useful selectivity or protection. Experienced formulators often talk about “troublemaker” inputs that break down, yellow, or pull in moisture during storage; in our experience, tight specification on purity and residual water content avoids these headaches downstream.
Feedback from synthetic peptide labs shows that a consistent, low-ash product means they spend less time troubleshooting failed couplings or backtracking unexpected side-products. In the materials field, specialists in custom coatings and resins have stressed the importance of a raw material that doesn’t introduce trace-level contaminants, since these trace components can catalyze unwanted polymerization or reduce shelf stability. These real-world stories drive continuous refinement of our production process and have shaped our specification philosophy, which focuses on practical downstream success, not just reference values from a certificate of analysis.
Sorting out the differences between similar N-protected amino acid derivatives often poses a challenge for newcomers. From our vantage point, 5-Amino Acetylpropionate’s main distinction lies in its balance of reactivity and selectivity: it’s less bulky than many carbamate-protected analogs, yet introduces more defined targeting capability than a simple glycine or alanine derivative. This flexibility shows up in diverse settings, ranging from the synthesis of peptide drug candidates to the design of custom amphoteric agents for specialty detergents or chelating agents.
Many users ask us to compare our product directly to variants such as acetylated proline or N-acetylated glycine. In our manufacturing runs, we see that these related molecules can require different handling: differences in solubility, hygroscopicity, or thermal behavior often limit their direct interchangeability. From a process perspective, 5-Amino Acetylpropionate handles smoothly in solution and presents minimal risk of clumping during bulk transfers, which has become a deciding factor for clients running high-throughput synthesis or those without advanced climate control in their facilities.
Other suppliers sometimes ship material with broader particle size distribution or less focus on surface area control. In production, this leads to clumping, inconsistent dissolution, or poorly performing reactions downstream. Our team prioritizes a uniform cut and prevents fines or oversized lumps that slow recipes in real-world applications. This attention goes beyond “spec compliance”—it directly saves time for technicians and operators further down the chain, especially in batch or continuous-flow operations.
Decades serving research and industrial partners have taught us that a product is only as good as its practical outcomes. Some customers have discovered hidden costs in using lower-grade inputs, often through unexpectedly high scrap rates or wasted labor. When raw materials drag down yields, the resulting rework can erase any price advantage. Our focus has always been on reliable transitions from our product through to a customer’s finished good—whether that means offering detailed technical support, troubleshooting storage or handling problems, or revising lot specs to match new regulatory demands.
Every plant faces logistical issues at some point, from changing environmental rules to sudden regulatory requests. Our production records cover years of batch history, enabling quick response to documentation requests or traceability questions. Customers have approached us for technical advice after finding trace-level impurities interfering with their own processing; often, issues resolve with a closer look at drying temperature profiles or residual solvent callbacks. Such direct involvement shortens feedback loops and feeds innovation in both our manufacturing and our customers’ R&D labs.
Repeated collaboration with academic researchers further drives home the value of clear, honest data sharing. By supporting open communication around specification targets and analytical challenges, both sides learn more about how process details shape real-world performance. We often conduct joint studies to test improvements or address pain points in scale-up, deepening trust and refining mutual understanding.
Any manufacturer serious about long-term partnerships invests in regulatory and environmental stewardship. With 5-Amino Acetylpropionate, we maintain tight inventory controls on raw materials and engage with third-party analysts to verify absence of restricted substances or heavy metals. Our quality documentation supports compliance with most major pharmacopeial and industry standards. That said, our approach to safety extends beyond paperwork: detailed batch traceability and open testing protocols make audits less stressful for downstream partners, who often juggle new layers of regulatory scrutiny.
Environmental management remains a permanent fixture in modern chemical manufacturing. Our waste minimization program targets each process step, from solvent recycling after acetylation to controlled effluent monitoring during wash cycles. Any process tweaks—such as adjusting pH or replacing outdated reagents—undergo risk assessment before full implementation, ensuring no surprises for our compliance group or local communities. We share all changes with affected customers, not just because it builds confidence, but because subtle changes upstream often ripple into product consistency at the other end.
We draw on feedback from buyers ranging from multinational pharma to regional specialty companies and academic startups. The priorities they voice—stable supply, consistent reactivity, and honest technical backup—key directly into our operational priorities. Experience shows that customers with highly variable or unreliable inputs end up spending extra on rework, overtime, or even lost batches. For this reason, we have built in guarded inventory strategies and maintain a dedicated field service staff able to visit partner sites and help with process integration work.
Past supply chain crunches taught us to avoid overcommitment and to build flexible run scheduling. By holding critical precursor stocks on site and qualifying multiple sourcing channels for key reactants, we have reduced lead times even during periods when global disruptions hit other manufacturers. Reliable advance forecasting, guided by long-term customer dialogue, means priority orders get filled quickly without penalty for our regular clients.
Routine customer visits let us see how handling or storage conditions vary by site: what works in a sealed drum in a climate-controlled warehouse rarely suffices in a humid, crowded local plant. By modifying packaging to address these front-line realities—antistatic liners, improved closure designs, or batch-specific labeling—we solve preventable problems before they reach lab benches. Recordkeeping on every run, from lot creation through final QA, creates an audit trail that has repeatedly supported rapid recalls or regulatory reviews, proving that quality begins with people and process, not sales flyers or glossy brochures.
As manufacturing technologies evolve, the strategies for synthesizing and deploying 5-Amino Acetylpropionate shift as well. Our R&D team tracks new reaction methodologies—such as microwave-assisted synthesis, greener acetylation agents, or precision catalysis—that create purer products using less solvent and energy. Experience working alongside technology partners lets us beta-test advances and roll out validated changes that boost yields or simplify waste treatment. Collaboration with innovative startups often reveals new application windows, such as emerging bioactive compounds or next-generation polymers, which in turn shape how we fine-tune our analytical packages and product forms.
Direct dialogue with universities and process teams encourages us to keep challenging assumptions, whether that means running pilot lots under alternate dry conditions or shifting entire process trains toward greener inputs. The payoff lands where it counts: lower batch-to-batch variance, new product grades tailored to niche requirements, and fewer customer headaches related to stubborn “edge case” failures.
The chemical sector never stands still. Strong relationships with formulation scientists, process engineers, and industrial purchasers drive constant improvement in what we make and how we deliver it. Our facilities are never static—ongoing upgrades in filtration, real-time analytics, and automation reduce errors and sustain the confidence of our customer base.
Open conversations with buyers continue to shape both product and practice. While many firms compete on price alone, lessons from the factory floor prove that consistency, quality, and technical backup guard against hidden costs that arise from downtime or unpredictable batches. Other manufacturers may view raw materials as commodities, but our long experience tells us that every lot impacts the next stage of value creation for customers.
We rely on clear teamwork across production, QA, and customer service teams to ensure every lot meets rigorous in-house standards. Training stays current as new analytical challenges and regulatory updates arrive; we invest in both equipment and expert personnel to stay ahead. The result shows up in reliable, high-purity material that builds trust over repeat cycles. We consider every inquiry or complaint a chance to improve—not just in addressing a specific shipment, but in refining how we design, produce, and distribute our product.
Subtle improvements matter. Over the years, we have changed drying curves, updated storage recommendations, and adjusted handling protocols based on direct customer feedback and in-house observation. The upstream benefits—reduction in clumping, stability during transport, easier dissolution—echo through our users’ own manufacturing runs, reinforcing the value of close supplier relationships.
Our story with 5-Amino Acetylpropionate covers more than just specification sheets and purity levels. It’s a series of lessons learned from years on the factory floor, continuous technical refinement, and open dialogue with everyone who depends on reliable, well-characterized chemical building blocks. This hands-on experience matches what major standards demand, but more importantly, addresses what customers actually face in their daily operations. The drive toward better practices—whether through innovation, improved process control, or real-time feedback—translates directly into dependable outcomes for every batch shipped.
Chemical manufacturing relies on more than simple supply: it depends on people, processes, and a willingness to learn from both success and challenge. Across hundreds of projects and countless batches, we continue to focus on what matters most to our users—reliability, practicality, and a commitment to supporting the ever-changing needs of the industries we serve. As the applications for 5-Amino Acetylpropionate continue to evolve, our approach remains rooted in experience, skill, and a straightforward dedication to quality and partnership. That is how we see our role: not just as manufacturers, but as partners invested in the success of every customer we supply.
