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HS Code |
528302 |
| Product Name | N-Methyl-2-pyridineethylamine dimethanesulfonate |
| Chemical Formula | C10H20N2O6S2 |
| Molecular Weight | 344.41 g/mol |
| Appearance | White to off-white solid |
| Solubility | Soluble in water |
| Purity | Typically >98% |
| Storage Conditions | Store at room temperature, in a dry and cool place |
| Synonyms | N-Methyl-2-(2-pyridyl)ethylamine dimethanesulfonate |
| Application | Research chemical, pharmaceutical intermediate |
| Boiling Point | Decomposes before boiling |
| Ph | Neutral to slightly acidic aqueous solution |
| Stability | Stable under recommended storage conditions |
| Hazard Statements | Handle with standard laboratory precautions |
As an accredited N-Methyl-2-pyridineethylamine dimethanesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 g white powder sealed in a labeled HDPE bottle, tamper-evident cap, chemical name and hazard symbols clearly displayed. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for N-Methyl-2-pyridineethylamine dimethanesulfonate: Typically packed in sealed drums, tightly secured to prevent leakage, 16–20 metric tons per container. |
| Shipping | **Shipping Description:** N-Methyl-2-pyridineethylamine dimethanesulfonate should be shipped in tightly sealed containers, protected from moisture and direct sunlight. Use appropriate cushioning and secondary containment in compliance with chemical shipping regulations. Label packages clearly, and ensure documentation includes hazard classification and safety data. Avoid contact with oxidizing agents during transport. |
| Storage | N-Methyl-2-pyridineethylamine dimethanesulfonate should be stored in a tightly sealed container, away from moisture and incompatible substances such as strong oxidizers. Store it in a cool, dry, well-ventilated area, preferably in a designated chemical storage cabinet. Protect from direct sunlight and sources of ignition. Properly label the container and follow all relevant safety guidelines for handling and storage. |
| Shelf Life | N-Methyl-2-pyridineethylamine dimethanesulfonate has a typical shelf life of 2 years when stored in a cool, dry place. |
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Purity 99%: N-Methyl-2-pyridineethylamine dimethanesulfonate with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high reaction efficiency and minimal by-product formation. Viscosity grade 12 cps: N-Methyl-2-pyridineethylamine dimethanesulfonate of viscosity grade 12 cps is used in catalyst formulation processes, where it improves dispersion and accelerates reaction rates. Molecular weight 293.35 g/mol: N-Methyl-2-pyridineethylamine dimethanesulfonate with a molecular weight of 293.35 g/mol is used in organic electronics manufacturing, where it enables precise molecular layering and enhances film quality. Melting point 158°C: N-Methyl-2-pyridineethylamine dimethanesulfonate featuring a melting point of 158°C is utilized in high-temperature polymer processing, where it maintains thermal stability and prevents degradation. Stability temperature 120°C: N-Methyl-2-pyridineethylamine dimethanesulfonate stable up to 120°C is used in industrial coating formulations, where it guarantees product integrity during thermal curing. Particle size <10 μm: N-Methyl-2-pyridineethylamine dimethanesulfonate with particle size less than 10 μm is applied in specialty ink production, where it provides uniform dissolution and optimal print resolution. Water solubility 50 g/L: N-Methyl-2-pyridineethylamine dimethanesulfonate with water solubility of 50 g/L is utilized in aqueous formulation development, where it ensures rapid and homogenous mixing. |
Competitive N-Methyl-2-pyridineethylamine dimethanesulfonate prices that fit your budget—flexible terms and customized quotes for every order.
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Day in and day out, our crew moves from raw material storage to the reactors, dealing directly with compounds like N-Methyl-2-pyridineethylamine dimethanesulfonate. We’re not describing this product from behind an office door—we handle the full cycle. Years spent refining our process bring a different kind of perspective than what you’ll find on trader sites or generic catalog pages.
This compound, with the model designation NMPEDA-MS, stands out in our line for the way it moves between organic chemistry applications and practical, industrial-scale uses. Every batch has a traceable trail back to the raw feedstocks, so there’s no guesswork on origin or composition. We run High Performance Liquid Chromatography and NMR verification on each lot, then document each record so our partners know exactly what sits in their drums.
Making N-Methyl-2-pyridineethylamine dimethanesulfonate is a hands-on process. The core step involves methylating 2-pyridineethylamine before introducing dimethanesulfonic acid. Under controlled conditions—carefully moderated pressure, temperature, and reaction times—we achieve a salt with stable characteristics and reliable solubility profiles.
Our plant’s operators know the pitfalls that can show up when temperature spikes or off-spec precursors find their way in. We start our shifts with automatic and manual inspections for purity and moisture, not just because we value compliance, but because even a small deviation means downstream issues for our clients.
We keep regular documentation of our procedures, and our team reviews each step at monthly quality meetings. This protocol comes not from a handbook, but straight from direct experience—every production hiccup has taught us something new. By following these protocols, we deliver material that our customers rely on in their critical syntheses, not just high-level R&D formulas.
End-users order N-Methyl-2-pyridineethylamine dimethanesulfonate for several reasons, with the most consistent being its value as a feedstock or intermediate in fine organic syntheses. Biotech clients trust it in their multi-step synthesizing of pharmaceutical intermediates, while specialty chemical makers value its reactivity. In our observation, its high assay and low impurity profile help reduce purification time—a result that saves both materials and hours.
Clients have told us that some markets seek alternatives, but the unique balance of reactivity and stability keeps them coming back. There are cheaper amine-based reagents, but they cause more cleanup at the end of the line. Several established protocols in heterocyclic modifications and alkylations find this compound attractive due to the way the pyridine ring and methyl group tweak electron flow, leading to predictable yields and lower formation of side products.
Spec sheets don’t capture the real-world difference. Looking at measured data, our material maintains a purity consistently above 99%. This isn’t a marketing number—it comes from our own HPLC runs and is backed by third-party verification when needed. Moisture sits below 0.5%, sometimes closer to 0.2%, and we never release a batch unless these lines match our published data.
Particle size distribution matters for many process engineers, especially when scaling up from pilot to production. We run all outgoing drum samples through sieve analysis, and our packaging lines avoid compacting the powder into unsolvable lumps. By storing final product in humidity-monitored storage, we keep the compound flowing freely, not clustering as blocks—so customers spend fewer hours on re-grinding or drying.
Other chemical companies use bulkier amines or standard sulfonates, typically for cost or shelf stability. We’ve trialed these alternatives side-by-side in-house. In most cases, they introduce more side reactions in alkylation and acylation steps. Polymer manufacturers have pointed out that our dimethanesulfonate outperforms sodium or potassium analogues where clean reactivity makes or breaks a batch. Our technical contacts at client sites sometimes run their own side-by-side tests and report the same trend.
One point where N-Methyl-2-pyridineethylamine dimethanesulfonate really sets itself apart traces back to its crystalline form: a sharp melting point eliminates ambiguity in downstream processing. Compared to proprietary blends that try to mimic its profile, ours shows fewer issues with batch stratification. Many larger players end up requesting detailed batch records, and we’re happy to provide those—all information logged daily by staff at the reactors, with direct witness and data trails.
Direct experience tells us something R&D literature sometimes forgets—how a product behaves in a controlled lab versus a shipping container in summer are two different things. Over the years, we’ve developed and tested double-lined packaging to lock out moisture. Sampled material that’s shipped worldwide still lands at our clients' sites with unchanged assay.
Handling rules at our plant grew out of real incidents. Short-term inhalation risks mean our crews work under ventilated hoods and wear gloves, even though the acute hazards are low if stored and managed by the book. We suggest the same on our technical calls. Most of our long-term clients report no safety issues when using common safeguards, which lines up with our logs over years and thousands of tons shipped.
Since 2003, our facility has often supported university researchers running feasibility studies or pilot programs. Our role is more than supplier—we offer historical performance data, real-value quotes, and, on request, technical troubleshooting from our in-house chemists. We’ve worked through numerous scale-up transitions when postdocs move from flask to hundreds-of-liter reactors. Nearly every time, the transition happens without expensive rework because our material’s properties match both bench and industrial expectations.
Research teams often run side-by-side screening of potential intermediates. Many select N-Methyl-2-pyridineethylamine dimethanesulfonate for its tight melting range and clear NMR spectrum, features that reduce ambiguity in structure confirmation. We see fewer queries about unexplained peaks or spectral anomalies with our product. Diligence during purification and isolation in our own plant operations pays off when researchers need clarity and reproducibility—not just a hopeful package description.
No chemical process moves forward without bumps in the road. Our team has logged dozens of process interruptions, root cause analyses, and customer troubleshooting sessions concerning N-Methyl-2-pyridineethylamine dimethanesulfonate. We don’t hide those—each incident has advanced our understanding of the material’s quirks and the best operational practices.
One story speaks volumes: a pharmaceutical plant in Southeast Asia began seeing yield drops in their pipeline after switching to a lower-cost supplier for this intermediate. After reviewing their batch records and analyzing impurity spikes, they returned to our product. The uptick in cost arrived with restored yields, lower downstream cleaning costs, and fewer production pauses. While this story plays out in several corners of the world, it goes to show that price-focused buying ignores the hidden overheads from labor, extra washing, and customer complaints.
We invite technical feedback from all users, whether it's a polymer engineer refining resin recipes or an academic chemist tightening up a synthetic route. More often than not, shared data leads to tweaks in our own processing—sometimes it's as simple as regenning a filter or adjusting time in the dryer, but every insight brings something new to the table.
The chemical industry faces scrutiny not just on product performance but the entire manufacturing impact. Our facility adopted closed-loop solutions for our amine and sulfonate processes long before regulatory requirements pushed for them. Waste streams see neutralization and controlled combustion, and scrubbers monitor air quality continuously. We base a lot of these improvements on feedback from plant staff, not just external audits.
N-Methyl-2-pyridineethylamine dimethanesulfonate doesn’t represent a high-volume commodity item, so there’s pressure to keep waste lean and cycling efficient. Our engineers routinely optimize reaction stoichiometry and energy usage, minimizing leftover reactants and side products. Solvent recovery units run daily, cutting both emissions and cost. Every improvement increases the bottom line, but the real value shows up in safety and peace of mind for workers—who appreciate an environment with clean air, clear water, and low-exposure risk.
Market volatility adds another layer of challenge in the chemical industry. As manufacturers, we install direct lines of communication with upstream raw suppliers. This way, we hold inventory buffers built for real workflow demands, not just spreadsheet idealizations. Over the past three years, raw material prices have spiked and dropped, but maintaining stable relationships and consistent offtake agreements has ensured seamless deliveries for our clients.
Some customers have switched to us after being frustrated by shipment delays or inconsistent product quality from trading houses or resellers. Direct manufacturing removes the ambiguity: every drum shipped contains material made under protocols our own staff designed and operate. Clients can request production batches tailored to specific campaign schedules, and because our facility controls the workflow, rush jobs or seasonal surges rarely disrupt contractual obligations.
Many in this industry have grown tired of third party brokers who can’t answer the details behind shelf life limitations, optimal storage, or process troubleshooting. We offer direct access to the staff who actually produce and qualify N-Methyl-2-pyridineethylamine dimethanesulfonate. Detailed questions about minor impurity profiles, interaction with other process intermediates, or performance under variable pH come directly to those most familiar with every facet of the material.
Our clients consistently report faster issue resolution, since they’re not stuck waiting for answers routed through layers of sales offices or external labs. On-site troubleshooting—virtual or in person—can be arranged for significant projects. For example, if a food additive client requires certification support or a pharma plant needs historical performance records, we can supply those the same day, straight from our own compliance logs.
Regulatory requirements keep evolving, especially in Asia, Europe, and North America. Documentation alone doesn’t guarantee quality—physical plant audits, cross-checks, and direct analyst access matter just as much. Our compliance record stands up to spot inspections, and our operators receive annual training on batch integrity and Good Manufacturing Practice as a result of direct plant experience, not just slideshows.
Where official monographs or pharmacopoeia entries exist, our internal validation matches or exceeds them, up to date with the latest regulatory publications. If customers need specialized documentation for import/export or product registration, we pull records and provide firsthand technical statements, all written and signed by our team. We never outsource this work—accuracy comes from those who know the material best.
Our relationship with N-Methyl-2-pyridineethylamine dimethanesulfonate stretches back decades. What sets us apart isn’t just high purity or reliable availability—though those matter a great deal. We’ve absorbed every lesson from scale-ups gone wrong, logistics slowdowns, and even the rare customer complaint. Batch-after-batch analysis and feedback give us an evolving sense of what matters for different users.
Pharmaceutical companies, material scientists, and industrial process engineers each care about different issues: analytical repeatability, minimal side reaction frequency, and smooth processability. By being both manufacturers and solution partners, we stack real results over time, not promises from spec sheets. Our legacy isn’t in standard templates or faceless supply—it’s in the hands-on attention to process and the connection we offer across technical, operational, and regulatory domains.
N-Methyl-2-pyridineethylamine dimethanesulfonate works as both a backbone and a specialist tool in advanced chemical synthesis. The supply isn’t just about purity or paperwork—it’s about solving new challenges based on experience and accountability. We built our reputation by shipping what we make, backing every container and every batch analysis with faces and names. Decisions, big and small, happen on our production floor. That’s why partners come back:
Our teams at every step—reactor, drier, blenders, QC—stand behind the product. Rolling out a batch never happens quietly; from formulation to packaging, we’ve built in cross-checks and personal accountability that only a producer can manage.
For those researching, building, or troubleshooting a process that relies on N-Methyl-2-pyridineethylamine dimethanesulfonate, experience shows the value of producer connection. Whether discussing batch-to-batch validation, process optimization, or supply chain continuity, every improvement or answer comes from our own learning and investment. This practical, daily approach defines what it means to work with a true manufacturer.
From the first kilo out the door to ongoing supply partnerships, performance on the ground means more than catalog descriptions or flavor-of-the-month pricing. When you rely on material to drive critical reactions, the person shipping it should know more than just a product code.
