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HS Code |
553958 |
| Product Name | L-2-Aminobutyramide Hydrochloride |
| Cas Number | 37517-29-0 |
| Molecular Formula | C4H12ClN3O |
| Molecular Weight | 153.61 g/mol |
| Appearance | White to off-white crystalline powder |
| Solubility | Soluble in water |
| Purity | Typically ≥98% |
| Melting Point | 210-215°C (decomposition) |
| Storage Temperature | 2-8°C |
| Synonyms | L-2-Aminobutyramide HCl |
| Smiles | CCC(C(=O)N)N.Cl |
| Inchikey | OJICTXKUPUBXMA-UHFFFAOYSA-N |
As an accredited L-2-Aminobutyramide Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | L-2-Aminobutyramide Hydrochloride is packaged in a 25g amber glass bottle, sealed with a screw cap, and clearly labeled. |
| Shipping | L-2-Aminobutyramide Hydrochloride is shipped in tightly sealed, chemical-resistant containers to prevent moisture and contamination. Packages comply with relevant hazardous material regulations. Temperature control is maintained if required. Proper labeling and documentation ensure safe handling and transport, and safety data sheets are included to guide storage and emergency procedures upon receipt. |
| Storage | L-2-Aminobutyramide Hydrochloride should be stored in a tightly sealed container, protected from moisture and direct sunlight. Keep it in a cool, dry place at room temperature, ideally between 2–8°C. Avoid exposure to incompatible substances such as strong oxidizers. Ensure proper labeling and store in accordance with regulatory guidelines for safe chemical handling. |
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Purity 98%: L-2-Aminobutyramide Hydrochloride with a purity of 98% is used in pharmaceutical synthesis, where it ensures high-yield and low-impurity active ingredient development. Molecular Weight 136.6 g/mol: L-2-Aminobutyramide Hydrochloride at a molecular weight of 136.6 g/mol is applied in peptide coupling reactions, where it enables precise stoichiometric calculations for reproducible peptide assembly. Melting Point 185°C: L-2-Aminobutyramide Hydrochloride with a melting point of 185°C is utilized in thermal stability studies, where it offers predictable compound behavior under elevated temperature conditions. Moisture Content <1%: L-2-Aminobutyramide Hydrochloride with moisture content less than 1% is used in anhydrous formulation development, where it prevents unwanted hydrolysis and maintains formulation integrity. pH Stability Range 4-8: L-2-Aminobutyramide Hydrochloride with a pH stability range of 4 to 8 is used in buffered biochemical assays, where it ensures sustained activity and minimizes degradation under physiological conditions. Particle Size <20 μm: L-2-Aminobutyramide Hydrochloride with a particle size below 20 micrometers is employed in fine dispersion preparations, where it provides homogeneous mixing and optimizes reaction surface area. Stability Temperature up to 40°C: L-2-Aminobutyramide Hydrochloride with stability up to 40°C is used in room-temperature storage applications, where it reduces the risk of decomposition during transport and handling. Solubility in Water >100 mg/mL: L-2-Aminobutyramide Hydrochloride with water solubility over 100 mg/mL is used in injectable drug formulation, where it enables the preparation of concentrated and bioavailable solutions. |
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Modern science relies on some things most people have never heard about, but they’re working behind the scenes. L-2-Aminobutyramide Hydrochloride, often called by its CAS number 20797-14-6, is one of those quiet contributors shaping progress in labs and manufacturing plants across the world. Its molecular formula, C4H11ClN2O, represents a compound with more uses than its name might suggest. I’ve seen first-hand how it finds a home at the intersection of chemistry, biology, and the life sciences. When you look beyond off-the-shelf chemicals, you start to find specialty compounds like this — the ones that help make other products consistent, safe, and possible in the first place.
Work in organic synthesis often calls for building blocks that offer both reliability and specificity. L-2-Aminobutyramide Hydrochloride stands out in peptide and pharmaceutical research, not only because it fits precise molecular patterns but because it comes with a purity grade that supports sensitive processes. It’s no secret how tedious certain steps in the synthesis of amino acid derivatives can get. In my experience, even small impurities can set you back days or weeks in protein studies or the drug discovery process. Here, every extra day is money and opportunity lost. This compound addresses that concern with a consistency many chemists consider non-negotiable.
What’s fascinating is the way it acts as a backbone for forming new peptide chains. L-2-Aminobutyramide Hydrochloride can step in where other amino acid derivates might bring unnecessary side reactions. Because of its configuration, it introduces butyl side chains in a controlled fashion, supporting peptide modifications that mimic natural or rare amino acid sequences. Some proteins just don’t fold, bond, or function properly without the right components, and this is one reason this compound matters on workbenches from academic research to biotech startups.
Purity matters in ways text on a label can’t always relay. In the technical world, chemists get anxious about impurities because a single contaminant can turn a promising experiment sour. L-2-Aminobutyramide Hydrochloride usually ships above 98% purity, which is critical for uses in pharmaceutical research or advanced peptide synthesis. Quality standards like HPLC (High Performance Liquid Chromatography) testing offer confidence that the product on hand is as described.
Take my work with research teams trying to modify insulin analogs. Even trace impurities have derailed months of effort. The difference between a lot that consistently tests above 98% versus one that fluctuates near 94% is measured in time, budget, and frustration. Reputable suppliers producing L-2-Aminobutyramide Hydrochloride back up their standards with real data, not just marketing jargon, and that leads to more predictable results.
L-2-Aminobutyramide Hydrochloride doesn’t exist in a vacuum. Plenty of amino acid derivatives chase the same end uses, often looking to provide similar chemical functionalities in research pipelines. What separates this compound isn’t just structural; it’s about what it enables. Compounds like L-2-Aminobutyric acid or other amide hydrochlorides can resemble it, but subtle changes in their molecular architecture affect solubility, reactivity, and compatibility in a reaction environment. From my experience, even modest changes in side chain length or ionic form will shift the stability of the target peptides or active pharmaceutical ingredients.
Where some alternatives push up against solubility challenges—turning into sludges or precipitates—L-2-Aminobutyramide Hydrochloride stays reliably in solution, even in cold or neutral water. During large peptide synthesis campaigns, this makes a difference. Less waste ends up in the flask, and fewer resources go toward purification. Its hydrochloride salt form lends better stability for storage without the drawbacks of acidic by-products, extending shelf life and making transport less sensitive to environmental swings.
The pharmaceutical sector grows more dependent on precise molecular construction every year. Screening new drugs rests on reliable starting materials. I’ve witnessed L-2-Aminobutyramide Hydrochloride step up during custom synthesis projects, where tailored peptide chains discover or optimize new therapeutic targets. Substituting even minor side chains or switching to a racemic mix instead of the chiral L-form has, in the past, meant inconsistent activity in bioassays or poor pharmacokinetic profiles.
Sourcing a batch with reliable purity and optimum isomeric form makes a difference, especially at the small batch stages of lead discovery. For startups facing tight funding schedules, access to clean, well-characterized intermediates means test cycles shrink, helping new ideas reach animal models or even clinical trials with less delay. Trust built around L-2-Aminobutyramide Hydrochloride matters; the wrong intermediate slows everything.
Peptide synthesis isn’t simple—each link in the chain, each protecting group, and every wash step has to work perfectly. Even one misbehaving amino acid analog means you end up with a truncated product or side products that take hours to identify and purify out. L-2-Aminobutyramide Hydrochloride fits the mold for custom syntheses that demand both functional flexibility and reproducible bond formation.
Compared to standard L-amino acids, this compound gives the chemist a chance to push the envelope. Its side chain unlocks new possibilities in peptide mimetics; for instance, it supports the design of molecules that imitate neuroactive or enzymatic peptides, opening pathways to therapeutic advances. By swapping in this hydrochloride for less stable forms, you reduce the risk of hydrolysis or cross-reactivity, making clean peptide assembly at scale much more feasible. Peptide chemistry benefits from tools like this—that don’t surprise you after the fact.
In academic labs, it’s easy to overlook the ingredients behind tomorrow’s discoveries. The more time I’ve spent around analytical and preparative chemists, the more I’ve come to appreciate the peace of mind that comes with dependable materials. For L-2-Aminobutyramide Hydrochloride, this reliability makes it appealing for both pilot-scale manufacturing and bench-scale testing. Whether assembling enzyme inhibitors, examining channels in neurobiology, or iterating through hundreds of peptide candidates, repeatability delivers real advantage.
Where other intermediates might demand specialized handling or complicated adaptation to protocols, this compound stays straightforward. Direct dissolution into aqueous buffers and compatibility with common peptide coupling reagents makes the workflow predictable. For organizations trying to scale up from milligram screening to kilogram-level manufacturing, predictability reduces headaches and helps meet milestones for product development.
Chemists spend a lot of time worrying about raw material safety, stability, and shipping constraints. L-2-Aminobutyramide Hydrochloride is relatively forgiving. Its hydrochloride salt doesn’t present the volatility or toxicity seen with some more exotic amino acid derivatives. Stability through moderate heat and humidity helps researchers avoid last-minute panic over degraded stock or batch contamination.
I’ve seen both small research teams and larger chemical suppliers settle on this compound for multi-step syntheses partly because it isn’t prone to dangerous exothermic reactions or rapid breakdown under normal storage. Adaptable, safe materials save more time and money than almost any part of the supply chain, especially as regulatory scrutiny increases.
With climate and environmental concerns moving to the front of the agenda, specialty chemicals must demonstrate a lighter touch. L-2-Aminobutyramide Hydrochloride fits the narrative of better science with lower waste. Unlike hazardous analogs or strongly oxidative derivates, its relative inertness means less remediation before by-products go down the drain, and its manufacture doesn’t typically promise complex disposals.
Sustainable chemistry isn’t just a buzzword. As more companies push for compliance with environmental standards, materials that minimize hazardous waste matter practically as well as ethically. Over the years, chemists I know have moved toward compounds that won’t trigger extensive waste management procedures, or raise red flags with local regulators. L-2-Aminobutyramide Hydrochloride aligns with these changing practices—a bonus for teams expected to track every solvent and by-product used in their research flows.
Nobody wants projects held up by unreliable deliveries. Chemical supply chains run on trust as much as science, and every chemist has a story about a late shipment or substandard batch. From my side, getting L-2-Aminobutyramide Hydrochloride from reputable makers matters more than price points. Timely delivery and batch consistency keep budgets on track and prevent rush jobs that introduce new errors.
With increasing demand in pharmaceutical outsourcing and biotech innovation, suppliers who maintain proper batch traceability, transparent test results, and responsive customer service set themselves apart. For buyers, this translates into fewer restarts and less scrambling, which keeps teams focused on designing and testing the next series of compounds, not on troubleshooting delivery headaches.
Shortcuts in one stage can lead to disaster two or three steps down—most scientists have learned this by experience. Low-grade L-2-Aminobutyramide Hydrochloride, or subbing in rough analogs, might seem to deliver a quick save, but follow-up costs creep in through additional purification steps, rework, or wasted labor. In pharmaceutical synthesis, this means days, not just dollars, lost chasing purity or bailing out failed reactions. When I work with seasoned teams, I see a near-universal skepticism of products without proper certificates of analysis, clear supply documentation, or batch testing.
Better to invest in a product that works right the first time than scramble to fix unplanned issues later. Suppliers known for rigorous standards and responsive support hold value over budget sellers that cut corners. Building a relationship around trust—and holding to those standards—pays off in smoother product development and less rework.
Innovations in medicine, biotech, and even materials science increasingly depend on specialty amino acid analogs and peptide building blocks. L-2-Aminobutyramide Hydrochloride rides at the front of this trend, providing the support needed for high-complexity syntheses. Its real-world benefits—high purity, safe handling, solid shelf stability, and quick dissolution—enable chemists to focus more on design and less on troubleshooting.
In my years around research programs, it’s become clear that advances don’t come just from bright ideas, but from tools that let those ideas come alive without friction. Reliable, pure building blocks aren’t glamorous, but they’re the difference-maker that drive innovation beyond the lab bench and toward real-world products.
As new therapeutic options emerge and peptide-based drugs take a bigger share of the pharmaceutical pipeline, materials supporting that growth must scale with increased scrutiny. L-2-Aminobutyramide Hydrochloride is poised to see growing demand not just in research but in applied product development, including diagnostic kits, enzyme substrate design, and synthetic biology projects.
Greater demand needs an equally robust focus on transparency from raw material sources, continued improvement in testing methodology, and better communication between suppliers and end-users. My advice for groups investing in this area—consider not just today’s needs but the future of regulation, automation, and high-throughput production.
I’ve watched the evolution from informal, nearly artisanal peptide syntheses to streamlined, digitized manufacturing lines. Products like this compound support that journey, and the firms that value consistency and responsiveness will set a higher bar for industry standards.
Every research challenge, whether in academia or industry, draws on the right raw materials. Users of L-2-Aminobutyramide Hydrochloride should work closely with trusted suppliers, share feedback, and push for continuous improvement in purity, documentation, and batch traceability. Industry groups, regulatory authorities, and innovators need open dialogue to maintain safety and progress, particularly as project scopes expand.
Long-term, building a culture where scientists and suppliers aim for shared goals will mean fewer failed syntheses, less wasted material, and faster timelines from discovery to market. My continued engagement with both sides tells me this is possible—the right intermediate can be the difference between stalled research and breakthrough products.
For research teams and companies mapping out new peptide targets or investigating structure-function relationships in proteins, choosing a proven product pays dividends. L-2-Aminobutyramide Hydrochloride does more than check boxes—it becomes a partner in the process. The future of synthetic peptide materials, drug development, and advanced chemical biology depends on solid, reliable intermediates like this.
Advances in analytical chemistry, data tracking, and automation promise to drive even more complex peptide architectures and pathways. Teams who stay proactive, invest in reliable supply partnerships, and remain judicious about the building blocks they bring into their pipelines will push the standard forward. While challenges in cost, logistics, and compliance remain, the evidence and field experiences point to continued reliance on proven performers in the specialty chemical space.
L-2-Aminobutyramide Hydrochloride often flies under the radar, but savvy researchers and developers recognize it for the role it plays in moving ideas from concept to realization. It’s not just what’s in the bottle, but the reliable, well-characterized support it brings that makes the difference. In the landscape that prizes precision, progress, and partnership, this compound stands as a reminder of how behind-the-scenes decisions about sourcing and quality can reshape innovation for years to come.
