|
HS Code |
865111 |
| Chemical Name | Dimethyl pyridine-2,5-dicarboxylate |
| Cas Number | 5544-19-8 |
| Molecular Formula | C9H9NO4 |
| Molecular Weight | 195.18 |
| Appearance | White to off-white solid |
| Melting Point | 110-113°C |
| Solubility | Soluble in organic solvents (e.g., ethanol, acetone) |
| Smiles | COC(=O)c1cnccc1C(=O)OC |
| Inchi | InChI=1S/C9H9NO4/c1-13-8(11)6-4-5-7(10-3-6)9(12)14-2/h3-5H,1-2H3 |
| Pubchem Cid | 86056 |
| Synonyms | 2,5-Pyridinedicarboxylic acid dimethyl ester |
| Storage Conditions | Store at room temperature, keep container tightly closed |
As an accredited Dimethyl pyridine-2,5-dicarboxylate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Dimethyl pyridine-2,5-dicarboxylate is supplied in a 100g amber glass bottle, sealed with a screw cap and labeled for laboratory use. |
| Container Loading (20′ FCL) | "Dimethyl pyridine-2,5-dicarboxylate is loaded in 20′ FCL, typically packed in 25kg bags or drums, net weight about 14MT." |
| Shipping | Dimethyl pyridine-2,5-dicarboxylate should be shipped in tightly sealed containers, protected from moisture and direct sunlight. Ensure compliance with local and international chemical transport regulations. Handle with care, avoid physical damage or leaks, and include appropriate hazard labeling. Store and transport at ambient temperature in a secure, upright position to prevent spillage. |
| Storage | Store **Dimethyl pyridine-2,5-dicarboxylate** in a tightly closed container, in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers. Keep away from heat, sparks, and open flames. Avoid contact with moisture. Ensure proper labeling and use secondary containment to prevent spills. Follow all applicable safety and regulatory guidelines during storage. |
| Shelf Life | Dimethyl pyridine-2,5-dicarboxylate should be stored tightly sealed; typically, its shelf life is 2–3 years under cool, dry conditions. |
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Purity 99%: Dimethyl pyridine-2,5-dicarboxylate with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high reaction efficiency and product yield. Melting point 96°C: Dimethyl pyridine-2,5-dicarboxylate with melting point 96°C is used in specialty polymer production, where it enables precise thermal processing control. Molecular weight 195.17 g/mol: Dimethyl pyridine-2,5-dicarboxylate with molecular weight 195.17 g/mol is used in catalyst formulation, where it provides consistent catalytic activity and reproducibility. Stability temperature 150°C: Dimethyl pyridine-2,5-dicarboxylate with stability temperature 150°C is used in agrochemical compound development, where it maintains structural integrity under process conditions. Particle size <50 µm: Dimethyl pyridine-2,5-dicarboxylate with particle size <50 µm is used in fine chemical formulations, where it allows enhanced solubility and homogeneous dispersion. Low water content <0.2%: Dimethyl pyridine-2,5-dicarboxylate with low water content <0.2% is used in moisture-sensitive organic synthesis, where it prevents hydrolysis and improves final product quality. UV absorbance 270 nm: Dimethyl pyridine-2,5-dicarboxylate with UV absorbance at 270 nm is used in analytical reference standards, where it provides reliable calibration for spectroscopic assays. High thermal stability: Dimethyl pyridine-2,5-dicarboxylate with high thermal stability is used in material science research, where it supports advanced polymerization studies at elevated temperatures. |
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Day after day in our facilities, the batch reactors hum with the production of Dimethyl pyridine-2,5-dicarboxylate—known to many as DM-2,5-PDC or simply as a key intermediate in specialty chemical lines. Our focus isn’t just on making a molecule that ticks boxes; our team pours its experience into building a material our partners can trust in performance-driven environments.
DM-2,5-PDC, with its precisely defined pyridine ring and twin methyl ester groups, doesn’t happen by chance. It’s the result of attentive work, from quality raw materials to well-calibrated reaction parameters. Even a slight fluctuation in temperature or feedstock composition affects yield and purity — two factors constantly under our team’s scrutiny.
Unlike generic esters, this compound features carboxylate groups at the 2 and 5 positions on the pyridine structure. This configuration enables the synthesis of advanced polymers, pharmaceuticals, and agrochemical products. The shape and reactivity of DM-2,5-PDC serve as essential stepping stones for chemists building complex architectures.
The DM-2,5-PDC we manufacture targets strict standards because sloppy chemistry shows up where it matters most: in the hands of formulators and process engineers. The specifications aren’t simply based on arbitrary targets. We monitor every parameter — from water content, residual solvents, and trace acids to color and melting point. Years of running pilot and production-scale batches taught us the hard way that purity can’t just be measured by a single metric like HPLC area%; overlooked contaminants cause downstream headaches.
Our current model stands out for holding moisture below limits favored by polymerization experts. NMR and GC-MS data confirm the absence of structural isomers and unknown tails, which matters when your next reaction step depends on predictable conversion rates. Melting at the right temperature is more than textbook information: it ensures that our product loads, flows, and dissolves in your process with minimal surprises.
Customers rarely ask about particle size distribution or trace metals for curiosity’s sake. We’ve seen other batches in the market where untreated or poorly recrystallized DM-2,5-PDC led to clumping in downstream dosing equipment. Every kilogram leaving our plant reflects feedback from synthetic chemists, formulation supervisors, and process engineers who expect their materials to just work — without extra filtration steps or makeshift fixes.
Solvent compatibility, often overlooked by resellers, drives both shipping safety and real-world usage. Our own supply chain team understands that the ease of redissolution or further chemical transformation impacts cycle times in processing lines. Product consistency doesn’t just serve our pride as manufacturers; it matters to those scaling up from bench to commercial runs, where any deviation multiplies costs and wastes time.
Chemistry abounds with near neighbors and isomeric variants. Dimethyl pyridine-2,3-dicarboxylate and 3,5-dicarboxylate each show different reactivity patterns due to how the carboxyl groups influence the electronic character of the ring. From experience, attempting to swap one isomer for another in a tried-and-tested protocol often results in incomplete reactions, unexpected by-products, or even dangerous intermediate build-ups.
In the real world, the right isomer is not a matter of mere preference; it’s about keeping projects on time and specifications on target. The 2,5-disubstituted compound finds favor in specialty nylon, engineering polymer, and complex ligand synthesis because it tends to form predictable bonds and products. Our process avoids cross-contamination with other isomers, sparing our partners the risk of variability.
Over the years, we refined our process controls, learning where shortcuts in drying or careless handling can create issues. We stick to closed systems and constant monitoring for product isolation and packaging. During occasional audits, clients often remark on the absence of product degradation, even in stocks that have waited several months. This resilience traces back to careful exclusion of oxygen and moisture at each step.
Every batch receives its share of scrutiny — not because reviewers demand it, but because we’ve seen customer projects halt over a single impurity or off-spec physical lot. While distributors speak about paper guarantees, our team stands on the feedback we receive directly from production engineers and R&D scientists who rely on consistent supply for their workflows.
Dimethyl pyridine-2,5-dicarboxylate isn’t just a curious laboratory material. You’ll find traces of its chemistry everywhere from aramid fibers to active pharmaceutical ingredient synthesis. In our plant, we’ve seen polymers toughened with DM-2,5-PDC turn up in industrial hoses and insulation films made to resist heat and chemical attack. For process chemists, the ability to generate highly functionalized pyridine rings enables stepwise synthesis of biologically active targets.
In pharmaceutical development, this compound plays a role in building block libraries. We field inquiries from both small biotech startups and large-scale producers, all looking for the same assurance: that every shipment brings exactly what was promised, lot after lot. In agrochemicals, its derivatization leads to stable ligands and crop protection intermediates, where impurity carryover can kill a registration effort or field trial.
Having fielded complaints about off-odors, packaging breaches, or unwelcome haze in solutions from products made elsewhere, our facilities moved to heavier-duty drums and inner liners that actually make a difference. Consistent feedback pushed us to retool drying protocols, run longer residence times when required, and improve operator training. These changes pay dividends for partners running multi-ton reactions or chasing final approvals for food-contact materials.
Over the years, we learned that product “grade” should signal more than a checkbox. Our mainline DM-2,5-PDC lots routinely outperform so-called “reagent grade” materials in polymer chain extension and pharmaceutical intermediates. When a downstream process needs a low-halogen profile or minimized sodium content, we communicate directly rather than sending abstract datasheets. Only a manufacturer, present for the hands-on troubleshooting, can bring that dialogue to bear.
Every year brings shifting regulations and evolving user demands. We’ve adapted by investing in real-time analytics and traceable batch records, giving customers detailed breakdowns of transition metals, residual organics, and lot history. This isn’t about marketing; it’s the reality of serving regulated sectors, from insecticide formulation to GMP-bound pharmaceutical APIs.
The market also demands ever-faster delivery and flexible packaging sizes. Small innovation labs lean toward kilogram packs, while some of our industrial partners regularly schedule drum-scale shipments. Our dedicated fleet and warehouse, staffed by people who know the product, sidestep the slowdowns often seen in single-use logistics chains.
Occasionally, specific applications throw up thorny problems. In one case, a customer alerted us to a crystallization bottleneck that traced back to interaction between our DM-2,5-PDC and a trace co-solvent in their process. Solving that issue happened not through abstract troubleshooting, but through direct exchange of technical samples and plant visits—a manufacturer’s way.
Year-on-year, small improvements have stacked up. We revisit reaction optimization, stretch the limits on water and solvent removal, and test old procedures against new analytical benchmarks.
By collaborating with both multinational R&D divisions and university labs, we hear early about emerging synthetic routes and polymer chemistry challenges that could shift the way DM-2,5-PDC serves its users. These insights drive us to pilot-line runs and technological upgrades, never assuming that last year’s process gives the best outcome for today’s projects.
A manufacturer’s advantage lies in being accountable from start to finish. Every change, from sourcing a new precursor to switching filtration media, carries through to end user results — and it’s our own teams who get the call if something drifts from the norm. By standing directly behind the material, we build processes that hold up both under the microscope and in the unforgiving timelines of contract manufacturing.
Raw material selection shapes both consistency and safety profiles down the line. We establish supplier relationships with partners audited for sustainability and compliance. Incoming materials undergo QC testing before entering our reactors, and waste management addresses both environmental and workplace health outcomes.
On-floor teams receive hands-on training in handling DM-2,5-PDC both in reactor and post-recovery, emphasizing the use of appropriate PPE, just-in-time transfers, and equipment cleaning protocols that maintain product purity and worker safety. In the rare event of supply chain disruption, our inventory buffers and contingency plans shield long-term customers from production shutdowns.
One point always stands out in conversations with technical buyers and project leads: steady communication about both availability and expected shipment quality. Last-minute surprises undermine not only cost structures, but also timelines for research and production. By remaining engaged throughout the entire lifecycle of each order, we ensure that technical questions, application feedback, and emerging needs actually make their way back to our production teams for action.
Production seldom unfolds without a hitch, and our staff understand real-world delays—from an unplanned maintenance stop to a late arrival of a critical reagent. Internal communication and clear documentation allow us to update customers in real time. Standing at the manufacturing source gives us the influence to manage both forecasted and unpredictable events.
Unlike third-party resellers who often lack full product knowledge or leverage in their supply chain, our responsibilities begin at raw materials intake and run through the drum in your warehouse. Every improvement and lesson we draw from each shipment carries back into the next cycle of production. By connecting directly with the people who depend on this chemistry, we learn early about problems and preferences, whether in a small-volume pilot run or a rolling industrial contract.
Improvements don’t come only from our lab benches. They flow from technical discussions, site visits, and after-action reviews with the biggest users and the most demanding innovators. Whether it’s a scale-up chemist noticing a narrowing in solubility profile or a production manager flagging an inconsistent flow behavior, these insights shape not only our immediate process parameters but also our broader philosophy of production.
This continuous and direct line from user to manufacturer strengthens confidence on both sides. Whether a partner needs support with regulatory filings or desires help with process troubleshooting, our manufacturer-backed commitment ensures that service doesn’t end at the invoice.
As industries pivot to greener chemistries and higher-purity inputs, we regularly reassess our own footprint and the downstream impact of our materials. Introducing improved solvent recovery and waste minimization helps both our operations and those of our customers who must account for lifecycle analyses in their own markets.
We engage with technical alliances and standards bodies to ensure both product and practice keep pace with future regulations. The requirements of medical device and food-contact polymers introduce stricter versions of familiar standards, and every plant upgrade must anticipate the limits yet to come. By staying proactive, we keep both our supply and our partners’ projects on track.
Trust in chemical supply comes from lived experience as much as from product labels. With each batch of Dimethyl pyridine-2,5-dicarboxylate we release, years of troubleshooting, technical dialogue, and iterative improvement go into that drum. As a manufacturer, we aren’t removed from the point where product meets process. Direct feedback, continuous investment, and an unwavering eye for both detail and safety mark out our service. Dimethyl pyridine-2,5-dicarboxylate leaves our site with the confidence that only comes from control over every step — giving customers confidence that each result starts with quality they can measure themselves.
