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HS Code |
521605 |
| Productname | Methyl 2-Amino-4-pyridinecarboxylate |
| Casnumber | 76076-11-0 |
| Molecularformula | C7H8N2O2 |
| Molecularweight | 152.15 |
| Appearance | Off-white to light yellow solid |
| Meltingpoint | 109-113°C |
| Purity | Typically ≥98% |
| Boilingpoint | 333.9°C at 760 mmHg |
| Solubility | Soluble in organic solvents such as DMSO and methanol |
| Iupacname | Methyl 2-aminoisonicotinate |
| Synonyms | Methyl 2-amino-4-pyridinecarboxylate; 2-Amino-4-pyridinecarboxylic acid methyl ester |
| Smiles | COC(=O)C1=CC=C(N)N=C1 |
| Inchi | InChI=1S/C7H8N2O2/c1-11-7(10)5-2-3-6(8)9-4-5/h2-4H,1H3,(H2,8,9) |
As an accredited Methyl 2-Amino-4-pyridinecarboxylate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Methyl 2-Amino-4-pyridinecarboxylate, 10 grams, is supplied in a clear, sealed glass bottle with a screw cap and labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 11 MT per 20’ FCL, packed in 25 kg fiber drums for Methyl 2-Amino-4-pyridinecarboxylate. |
| Shipping | Methyl 2-Amino-4-pyridinecarboxylate is shipped in tightly sealed containers, protected from moisture and light. It is typically transported as a solid, with appropriate hazard labeling. Ensure compliance with local regulations for handling chemicals, and ship with proper documentation and safety data sheet (SDS) included for safe and lawful transport. |
| Storage | Methyl 2-Amino-4-pyridinecarboxylate should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area away from direct sunlight and moisture. Keep away from incompatible substances such as strong oxidizing agents. Ensure proper labeling, and store at room temperature or as recommended on the safety data sheet. Avoid sources of ignition and follow appropriate chemical storage guidelines. |
| Shelf Life | Shelf life of Methyl 2-Amino-4-pyridinecarboxylate is typically 2-3 years when stored in a cool, dry, dark place. |
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Purity 98%: Methyl 2-Amino-4-pyridinecarboxylate with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and reduced process impurities. Melting Point 132°C: Methyl 2-Amino-4-pyridinecarboxylate with melting point 132°C is used in fine chemical formulation, where it enables stable incorporation into temperature-sensitive blends. Molecular Weight 152.15 g/mol: Methyl 2-Amino-4-pyridinecarboxylate with molecular weight 152.15 g/mol is used in analytical reference standards, where it provides accurate quantitative calibration. Particle Size <50 µm: Methyl 2-Amino-4-pyridinecarboxylate with particle size less than 50 µm is used in catalyst preparation, where it enhances surface area interactions and reaction efficiency. Stability Temperature up to 80°C: Methyl 2-Amino-4-pyridinecarboxylate with stability up to 80°C is used in active ingredient encapsulation, where it maintains chemical integrity during thermal processing. |
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Manufacturing chemicals like Methyl 2-Amino-4-pyridinecarboxylate demands precision, consistency, and honest feedback from people who actually see the process all the way through. We run each batch, watch it through quality checks, and hear firsthand what matters for both seasoned professionals and people new to working with pyridine derivatives. This compound comes to us more often than not as an off-white to beige crystalline powder. It’s a staple in some pharmaceutical research circles, and it plays a clear role in organic synthesis for a reason: predictable reactivity and straightforward handling compared to several of the ring-substituted aminopyridines that come stamped with more regulatory baggage or trickier storage requirements.
We typically supply this chemical under the model identifier MAPC-24-01, though end-users sometimes refer to it by its registry number or chemical formula. We never lose sight of the neat simplicity it brings to reaction set-ups. Its melting point lands with reliability, and the molecular weight stays true after every batch. Drying it, blending it, and re-packaging it before it heads out the door are all tasks that highlight how the powder resists clumping and keeps away from excess atmospheric moisture, provided one respects normal chemical storage guidelines.
Their industry sometimes leans too hard on specification tables, but the reality inside our facilities brings out what matters most. Each MAPC-24-01 lot gets tested for content, related substances, water content by Karl Fischer, and residual solvents — because unchecked impurities mean headaches down the line. We record HPLC purity levels run after run, and successful batches fall well within the required specifications. If the powder sits more yellow than beige or shows a melting range outside the documented window, that product doesn’t leave the facility. We use gloveboxes for moisture-sensitive observations and draft the final results only after cross-verification, not just after a cursory visual check.
Our emphasis stays on batch-to-batch consistency. Chemists rely on having the same profile each shipment. Skipping this focus allows variations in end products, delays in research, and protocols failing without clear cause. Over time, the manufacturing team gets a sense for how subtle changes in temperature, pressure, or pH can nudge side-product formation, so the process always involves careful monitoring rather than a set-it-and-forget-it mentality.
The talk around MAPC-24-01 usually circles back to its spot in heterocyclic building block libraries. We see it move off our shelves toward companies and labs tackling new pharmaceutical scaffolds, agrochemical discovery, and dye intermediate synthesis. Its main draw isn’t just its straightforward nucleophilicity or its high-yield reactions, but also its manageable safety profile for teams familiar with aminopyridines. There’s no overpowering odor, and we haven’t logged issues from short-term exposure in a ventilated workspace, assuming normal personal protective equipment is used.
Most reactions that pull for this molecule favor its amine group for substitutions or cross-couplings, and the ester end opens things up for further derivatizations. Feedback from our partners underscores that the carboxylate's methyl group makes hydrolysis and transesterification steps smoother, without the fussing and yield losses seen in bulkier analogs or free acid forms. One customer running early-stage medicinal chemistry pointed out how MAPC-24-01 showed better solubility in standard polar solvents compared to several close cousins—reducing headaches when prepping libraries or scaling up screening assays.
In our years working hands-on, distinctions between this molecule and other aminopyridinecarboxylates become hard to ignore. For teams used to methyl 4-aminopyridine-3-carboxylate or ethyl 2-amino-4-pyridinecarboxylate, the handling and work-up feel similar at first glance. Digging deeper, subtle differences show up. The methyl instead of ethyl moiety adds noticeable speed during base-catalyzed hydrolysis. We see less oiling out during recrystallization, cutting down on purification time. That benefit means easier solvent recovery and waste minimization, which appeals to anyone with an eye on sustainable practices.
We often get asked how it fares against products like 2-amino-4-pyridinecarboxylic acid itself. Swapping out the ester for a free acid base can complicate things greatly, not just with increased hygroscopicity but also because the acid form gums up more quickly and forces longer reaction times or requires harsh activating reagents. MAPC-24-01 sidesteps these workflow slowdowns.
Another place real-world difference shows lies in the regulatory and storage sphere. Bulkier esters or compounds with more hazardous label requirements rack up extra costs and require temperature-controlled warehousing. MAPC-24-01 prefers it cool and dry but doesn’t demand freezer-grade controls or active humidity monitoring, freeing up shelf space and simplifying logistics. That seems minor on paper until a run gets delayed because of rules on incompatible storage, something we notice with more reactive aminopyridines on our own site and from customer stories.
Some in this business try to skirt around hard questions about traceability, but being on the manufacturing line, we see the results of full documentation and regular audits. Each product number connects back to raw material suppliers, the reaction vessel batch log, and the results of every in-process control. We aren’t just repacking from another source—our name stands on the stability of each drum and the care taken during synthesis. It’s easier to answer client questions on new contaminants or subtle physical changes when everything, from filtration aids to minor solvent residues, is logged by the same team that mixes, dries, and weighs out the final powder.
Transparency isn’t about producing yet another certificate that nobody reads. It comes from allowing analysts and researchers to quiz us about polymorphism risks, storage tests under stress, or packaging material compatibility. If a customer wants a particular solvent system cleaned out before dispatch, or a variant packaging size, we explain what can realistically be changed and how the process justifies that step. Hands-on experience tells us these decisions build confidence with end users, and the repeat business confirms it.
Manufacturing always comes with bottlenecks, especially if market demand rises unexpectedly. With MAPC-24-01, upstream precursors can sometimes run into supply disruptions when vendors change specifications without warning or rain seasonality affects fine chemical output from regional producers. We address these issues head-on by holding buffer stocks not just of finished product, but key intermediates. Closing the loop with trusted suppliers allows us to smooth out production swings and keep lead times predictable.
Scalability depends not only on plant capacity but also on workforce skill. Fine-tuning crystallization steps or tweaking solvent gradients takes more than good equipment—it calls for staff who know the routines cold, spot errors before they multiply, and communicate issues early. We run enough pilot-scale and full-scale batches to know where process transfer breaks down. If a scale-up from 10 kg to 100 kg increases side product formation, we look at agitation rates, solvent hold times, and filter mesh size. Fine details like these separate high-quality, manufacturer-direct product from inferior lots flooding the marketplace.
Communication with end users sometimes brings forward challenges we never saw in-house. Researchers pushing into new conjugation chemistries or tweaking amide bond formation let us know if a minor impurity depresses their yields, or if the product behaves unpredictably under new reaction conditions. We treat each complaint and suggestion as a learning opportunity and feed improvements back into the manufacturing process, not just paperwork.
Nothing stalls a great research initiative like safety surprises. Having spent years around aminopyridine derivatives, it’s clear the safest products are those where nothing is hidden and every precaution is discussed openly. MAPC-24-01 has a manageable safety profile—gloves, goggles, ventilation, basic chemical hygiene—but cutting corners with dust handling or solvent contact raises risks of minor irritation. We include updated handling guidance for every shipment because new staff join labs regularly, and standard operating procedures should never rely on old habits alone.
Waste disposal is straightforward here, as our product doesn’t force the use of exotic neutralizers or dangerous decomposition controls. Laboratories and production facilities alike see cost and risk benefits with this approach. After multiple pilot studies, we have measured that this molecule’s degradation products don’t warrant special permits above routine aminopyridine disposal. Our own experience shows that investing a little extra time in clear, written protocols leads to fewer accidents and higher overall satisfaction from both plant engineers and downstream users.
Years spent working hand in hand with R&D chemists has shaped how we produce and support customers using MAPC-24-01. Some companies prioritize purchasing from cheap resellers, but when customers face issues with solubility changes, melting points drifting by more than a degree, or unknown particles in their vials, they turn to us for answers. Clients want to speak directly with the team who actually produced the product, not with a call center reading scripts. We take every phone call, answer every technical question honestly, and keep our improvement cycle tightly linked to these conversations.
It’s not just about keeping regular clients happy. Some new users have come to us after losing batches to brands with lower up-front costs, only to face unpredictable reactivity or cloudy solutions. Our testing program encourages reporting of even minor side effects, like discoloration, pressure build-up during reaction runs, or issues during thin-film evaporation. Each report adds to our understanding, helping us further refine every stage of production, from raw material checks to drying and packaging.
For every ton produced, we look for ways to lighten our footprint. MAPC-24-01 allows for a responsible approach to water, solvent, and energy use. Thanks to its clean crystallization and easy waste management, we’ve been able to lower the volume of wash solvents per batch and cut down on water in the final washing stages. Feedback from eco-conscious partners underlines how even small savings matter when producing thousands of kilograms a year.
On the energy front, our manufacturing setup leverages closed-loop heating and cooling, reducing power waste during temperature cycles. MAPC-24-01 supports these efforts because its reaction profile rarely requires prolonged high temperatures or complex post-synthesis processing, saving energy along the way. Wastewater generated contains only known byproducts, easily separated and disposed of without calling for special remediation. These little efficiencies add up, and we share our progress transparently with clients who want to know how their supply chain impacts the bigger picture.
The world of aminopyridine derivatives is constantly evolving as researchers ask more from their starting materials. MAPC-24-01 continues to see action at the cutting edge, both in academic circles and the pharmaceutical industry. Its dependable reactivity makes it a strong candidate for rapid hit-to-lead campaigns, iterative analog synthesis, and scalable manufacturing at the pilot plant level. New derivative compounds using the methyl ester scaffold show promise for therapies as varied as neural agents and agricultural growth regulators.
As ideas shift and new regulatory or application needs emerge, we never treat our process as finished. Our equipment undergoes routine upgrades to guarantee cleanroom compatibility and prevent cross-contamination. Supplier audits, frequent in-process checks, and open technical dialogues with clients keep our standards above what outdated market entries offer. When faced with a new demand—such as different particle size needs or requests for solvent-free powder—our team draws on decades of direct experience rather than on generic, templated solutions.
Day-to-day chemical manufacturing runs on the backs of trained operators, honest supervisors, and technical staff who care about product leaving the plant. Shortcuts in drying, lack of cleaning between batches, and careless raw material substitution can all spell disaster for the next user. MAPC-24-01 reinforces this lesson time and again. When handled with respect and kept to demanding standards, it meets research needs across the world with measurable reliability. Lapses, even once, risk entire production runs and undermine trust built over years of direct collaboration.
Every drum or packet stamped with our batch number reflects real effort from skilled hands. We know our product’s quirks, bottlenecks, and advantages because we live with them shift after shift. Chemists using MAPC-24-01 benefit from a direct line to people who have poured, filtered, and checked the powder again and again, not a faceless supplier quoting figures found online. In a world flooded with choices, nothing beats knowing who actually stands behind what you’re using in your lab or plant.
Working directly with Methyl 2-Amino-4-pyridinecarboxylate, we see its impact on modern chemical production, research, and industrial innovation day in and day out. The product’s manageable handling, consistency, and reactivity allow our partners to press forward with new ideas without fear of avoidable setbacks. Our feet on the plant floor and eyes trained on the small details ensure every order reflects what serious production means: no glossing over the tough parts, and no substitute for manufacturer-level engagement. This close, boots-on-the-ground approach keeps standards high, customers informed, and new opportunities within reach for those building the molecules and reactions of tomorrow.
