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HS Code |
588521 |
| Chemical Name | 2-Methylamino-3-amino-6-methoxypyridine |
| Molecular Formula | C7H11N3O |
| Molar Mass | 153.18 g/mol |
| Appearance | Solid (typical for small organic molecules, may be crystalline or powder) |
| Solubility In Water | Moderate (estimated from functional groups) |
| Smiles | COC1=CC(N)=C(NC)C=N1 |
| Cas Number | 356783-32-9 |
| Functional Groups | amino, methylamino, methoxy, pyridine ring |
| Purity | Typically >98% (supplier dependent) |
| Storage Conditions | Keep in a cool, dry place; protect from light |
As an accredited 2-Methylamino-3-amino-6-methoxypyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The chemical is supplied in a 25-gram amber glass bottle, sealed with a tamper-evident cap and labeled with hazard and identification information. |
| Container Loading (20′ FCL) | 20′ FCL container loading ensures secure, moisture-free transport of **2-Methylamino-3-amino-6-methoxypyridine** with labeled drums/pallets and safety compliance. |
| Shipping | The chemical **2-Methylamino-3-amino-6-methoxypyridine** is shipped in sealed, chemically-resistant containers under controlled, ambient conditions. Packaging complies with regulatory standards to prevent leaks and contamination. Proper labeling, including hazard identification and handling instructions, is ensured for safe transport. All shipments adhere to regional and international shipping regulations for laboratory chemicals. |
| Storage | Store 2-Methylamino-3-amino-6-methoxypyridine in a tightly sealed container, in a cool, dry, and well-ventilated area away from incompatible substances such as strong oxidizers. Protect from light and moisture. Label containers clearly and avoid exposure to heat or flame. Only trained personnel should handle the chemical while using appropriate personal protective equipment (PPE), including gloves and eye protection. |
| Shelf Life | 2-Methylamino-3-amino-6-methoxypyridine has a typical shelf life of 2 years when stored properly in a cool, dry place. |
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Purity 99%: 2-Methylamino-3-amino-6-methoxypyridine with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Melting Point 185°C: 2-Methylamino-3-amino-6-methoxypyridine with a melting point of 185°C is utilized in advanced organic synthesis, where it provides thermal stability during high-temperature reactions. Molecular Weight 153.18 g/mol: 2-Methylamino-3-amino-6-methoxypyridine with molecular weight of 153.18 g/mol is incorporated in medicinal chemistry research, where precise molecular mass facilitates targeted compound formulation. Particle Size <50 µm: 2-Methylamino-3-amino-6-methoxypyridine with particle size less than 50 µm is applied in chemical process development, where fine granularity improves reaction kinetics and dispersion. Stability Temperature up to 120°C: 2-Methylamino-3-amino-6-methoxypyridine with stability temperature up to 120°C is used in catalytic process applications, where enhanced thermal resistance supports prolonged reaction cycles. Water Content <0.5%: 2-Methylamino-3-amino-6-methoxypyridine with water content less than 0.5% is used in anhydrous synthesis workflows, where minimal moisture reduces risk of side reactions. |
Competitive 2-Methylamino-3-amino-6-methoxypyridine prices that fit your budget—flexible terms and customized quotes for every order.
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Working every day with specialty chemicals teaches patience, persistence, and a respect for the difference that quality raw materials make. Over years of producing 2-Methylamino-3-amino-6-methoxypyridine in our own facilities, we’ve come to see this intermediate as a standout within the pyridine derivatives family. Its unique performance across pharmaceutical and agrochemical synthesis has been clear not just from technical sheets but from feedback straight from client labs and R&D departments.
Put simply, not every pyridine derivative can deliver when chemists try to increase reaction yields or shape new active compounds. This molecule, C6H10N4O, stands out in practice for its dual amine groups and its methoxy substitution at the 6-position. During synthesis, we watch this combination reduce side products and open new possibilities compared to more basic structures. Years ago, after refining our protocol to consistently reach purity above 98%, a major shift happened — researchers started reporting far fewer downstream purification headaches. Avoiding sticky tars or ambiguous peaks in chromatograms translates directly to more efficient pilot plant trials for our partners.
What we ship often heads straight for the bench in drug discovery. Medicinal chemists have used this compound to build pyridine-based scaffolds that find their way into newer classes of kinase inhibitors and other enzyme-targeting drugs. In-house, we continually monitor each lot against tight limits. Color, melting point, HPLC profile, residual solvents — each can warn us early of synthesis drift. This approach means our partners don’t have to babysit incoming batches, freeing their teams to focus resources where they matter.
Multiple clients have shared that, before switching to our 2-Methylamino-3-amino-6-methoxypyridine, their multi-step syntheses struggled with variable outcomes due to inconsistent raw materials. Within a few months of adopting our grade, repeat runs lined up with far less troubleshooting. These are the reports that stick with us: a stable product isn’t just chemistry, it’s cutting cycle time and reducing stress in time-sensitive innovation.
Our plant has synthesized a variety of pyridine amines over the years. Some lack the methoxy group at the 6-position, or their amino groups occur in a different arrangement. These similar molecules can sometimes look promising on paper, but in heads-up tests, the subtle arrangement in 2-Methylamino-3-amino-6-methoxypyridine delivers more pronounced reactivity toward selected coupling and substitution reactions. What’s more, the methylamino at the 2-position introduces both steric and electronic effects, opening up selective acylation or alkylation steps that less-functionalized pyridines just can’t touch. Small changes translate to major process headaches or breakthroughs, depending on the choice. Our feedback channels with custom synthesis clients consistently reinforce that this compound’s arrangement reduces the need for harsh reagents, allowing safer, scalable routes without sacrificing conversion rates.
There’s a hard-earned lesson among chemical manufacturers: technical grade alone won’t guarantee smooth performance. Slight shifts in process water quality, crystallization rates, or filter media choice will show up as ghost peaks in NMR or trouble in scale-up. Our team puts significant time into adjusting and testing these parameters. Internal use of narrower sieve fractions — taking extra time for slow cooling and multi-step recrystallizations — paid off in the most practical way. We now routinely see our product pass the full range of standard compendial tests, but it’s the “unwritten” performance — the way our 2-Methylamino-3-amino-6-methoxypyridine dissolves in a routine solvent, or the absence of layer separation at loading — that partners have learned to count on.
A lot of our continuous improvement comes from straight talk with formulation chemists and research managers. Their lab notebooks show the true cost of off-spec product: stalling reactions, incomplete conversions, days wasted trying to troubleshoot what turned out to be a minor impurity. Direct feedback after trial shipments often leads us to tweak synthetic steps or drying cycles. Transparency on real failure and short shipments has built lasting trust; chemists know to expect us to take responsibility and fix issues quickly rather than make excuses. This culture means downstream users have an easier time qualifying our material for both early stage and commercial runs.
Reality away from marketing language comes into sharp focus when watching plant teams handle drums of 2-Methylamino-3-amino-6-methoxypyridine week after week. We choose packaging and labeling with actual end-user practice in mind. Strong secondary containment, tamper-evident closures, and batch tracking numbers make a difference in daily operations, not just audits. Stability during storage matters as well — our attention to moisture control and UV-resistant containers grew directly from customer complaints about hardening or color shifts from earlier years. Everyone down the chain — warehouse, lab, or sales desk — notices when a drum opens up cleanly and the solid doesn’t show telltale clumping.
The scale of production shifts the challenges. Small batches that work in a glass vessel don’t always behave the same at 500-liter scale, where mixing dynamics or temperature gradients rear up sharply. During scale-up, our plant chemists spend hours on process optimization, running pilot campaigns and trialing different stirring speeds, temperatures, and order of addition. We’ve learned never to trust a single “lucky” batch. Routine in-process control, not just end-product analysis, makes the difference between luck and sustainable quality. Only when we saw batch-to-batch reproducibility did we release lots for wider use. Downstream partners no longer lose time qualifying new shipments because we hold the line for consistency.
Years in the field have taught us to take safety seriously. 2-Methylamino-3-amino-6-methoxypyridine, with its basic nitrogen atoms and aromatic backbone, demands respect during handling. Trace dust or poorly ventilated workspaces can bring headaches or more, making it crucial to communicate risks directly. We’ve updated our in-house protocols with feedback gleaned directly from the floor: clear labeling, ventilation checks, and mandatory personal protection during transfers. Maintaining a safe environment is not about checking boxes; it’s what allows production teams to build stable careers and ensures the next generation of chemists enters the field with confidence rather than anxiety.
Recently, swings in global demand for pyridine intermediates have made production scheduling more complex. Spikes driven by new patents or regulatory shifts in major markets tend to bring unforeseen orders, pushing our plant to ramp up faster than ideal. The experience has shown us where our bottlenecks lie: drying times, solvent recoveries, workforce fatigue. Open discussion with procurement colleagues and even end-users leads to more reliable demand forecasting and smaller, more frequent campaigns. Locking in shorter lead times, we’ve kept regular partners supplied even through the ups and downs created by rapid shifts in market demand.
From the outside, specialty chemicals sometimes seem interchangeable. But over the years, breaks in raw material supply or sudden price increases for a key starting compound have driven home the risks that lurk beneath the surface. We’ve adapted by qualifying alternate sources wherever feasible and building a modest inventory buffer — not to speculate, but to keep lines moving when the unexpected hits. Open relationships with upstream producers mean faster notification when production issues crop up. For our partners, this responsiveness lowers the anxiety of committing to scale-ups where failure to deliver a key intermediate can stall an entire project timeline.
Regulatory shifts and evolving expectations around environmental stewardship mean more for us than just compliance documentation. Waste reduction and solvent recycling matter on the financial and human level as well. After investing in improved distillation and filtration systems, we have cut overall waste and improved workplace safety. These changes did not happen all at once, but as a series of practical adaptations in response to real worker input and environmental audits. Thinking ahead has helped us avoid costly interruptions and improved our standing with community and local regulators, supporting the long-term outlook for our production teams.
Some of our best process improvements arose from mistakes on the shop floor. Discoveries about improved pH control or unintended side-product formation, shared openly within our facility, led to lower rework rates and higher first-pass yields for 2-Methylamino-3-amino-6-methoxypyridine. Unfiltered feedback — not just from managers but operators and technicians — drives us to innovate and adapt quickly. Our investment in training, troubleshooting, and open-door communication keeps all hands prepared for unexpected process behavior, so product quality remains high in practice and not just in spec sheets.
After years in production, we’ve seen trust emerge as the real differentiator. Phone calls from new clients often turn on reliability, not features. People want to know that when a shipment is due, their plant or lab won’t be left waiting, and that the material inside meets their toughest technical challenges. Open, straight communication, fast problem-solving, and a willingness to learn from failures earn respect and repeat business more than any short-term promotional offer. Our commitment to these principles keeps our relationships strong, even in a rapidly evolving marketplace.
Looking ahead, new synthetic methodologies and applications for 2-Methylamino-3-amino-6-methoxypyridine will keep us busy. Early conversations with researchers pursuing novel targets in medicinal chemistry bring requests for tighter specifications, new packaging formats, or support with documentation and analytical method transfer. Working closely with pioneers keeps our team engaged and delivering solutions rather than just a product. We listen, adapt, and sometimes expand our offerings in direct response to user breakthroughs, seeing our role as a partner in success rather than just a supplier. These collaborations add meaning to our daily work on the plant floor and in the lab.
For every kilogram of 2-Methylamino-3-amino-6-methoxypyridine that leaves our site, the real value lies in how it contributes to the next breakthrough or process improvement. Our ongoing technical support, thorough documentation, and openness to feedback build the foundation for effective collaboration. From seamless onboarding of new projects to rapid troubleshooting in the rare event of an outlier batch, our focus remains on real-world utility and direct support. We’ve seen how this approach saves time and money for both early-stage innovation and routine production alike.
Not all chemical intermediates sit on equal footing. Even within similar compounds, small changes in structure and purity can make the difference between a drag on a process and an engine for progress. Our continual engagement with users —-down to the granular details of use cases and troubleshooting logs— guides our efforts to continually improve our take on 2-Methylamino-3-amino-6-methoxypyridine. People across industries have recognized that our approach brings greater reliability, safer processing, and the kind of practical performance that drives their projects forward. We know because they tell us so — and we take pride in making a difference, batch by batch, year after year.
