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HS Code |
216080 |
| Chemical Name | N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide |
| Molecular Formula | C8H11N3O3S |
| Appearance | White to off-white solid |
| Purity | Typically ≥98% |
| Solubility | Soluble in DMSO, partially soluble in water |
| Boiling Point | Decomposition before boiling |
| Melting Point | 160-164°C |
| Storage Temperature | 2-8°C |
| Iupac Name | N,N-dimethyl-2-sulfamoylpyridine-3-carboxamide |
| Canonical Smiles | CN(C)C(=O)C1=CN=CC=C1S(=O)(=O)N |
| Inchi | InChI=1S/C8H11N3O3S/c1-11(2)8(12)6-4-3-5-7(10-6)15(9,13)14/h3-5H,1-2H3,(H2,9,13,14) |
As an accredited N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | White powder sealed in a 10 g amber glass bottle with a screw cap, labeled with chemical name, formula, and hazard symbols. |
| Container Loading (20′ FCL) | 20′ FCL container loading for N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide involves sealed, labeled drums/pallets, ensuring secure, moisture-free chemical transport. |
| Shipping | N,N-Dimethyl-2-sulfamoyl-pyridine-3-carboxamide is shipped in tightly sealed containers, protected from moisture and light. It is typically packaged according to chemical safety regulations, with proper labeling and documentation. Transportation follows ADR, IATA, or IMDG guidelines, ensuring secure handling to prevent spills, exposure, and environmental contamination during transit. |
| Storage | Store N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide in a tightly sealed container, protected from moisture and direct light, in a cool, dry, and well-ventilated area. Keep away from incompatible substances such as strong acids, bases, and oxidizing agents. Label the storage container clearly and ensure it is kept at room temperature, following all relevant chemical safety and handling guidelines. |
| Shelf Life | N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide typically has a shelf life of 2 years when stored in a cool, dry place. |
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Purity 99%: N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide with purity 99% is used in pharmaceutical synthesis, where it ensures high yield and product consistency. Melting point 185°C: N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide with a melting point of 185°C is utilized in organic electronics manufacturing, where it maintains thermal stability during device fabrication. Molecular weight 258.29 g/mol: N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide of molecular weight 258.29 g/mol is applied in medicinal chemistry research, where accurate dosing and reaction planning are enabled. Stability temperature up to 120°C: N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide with stability temperature up to 120°C is incorporated in agrochemical formulations, where it guarantees product integrity throughout storage and handling. Particle size <20 μm: N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide with particle size less than 20 μm is deployed in advanced material composites, where it promotes homogeneous dispersion and improved material properties. |
Competitive N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@bouling-chem.com.
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In chemical manufacturing, every molecule tells a story. N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide is no different. It doesn’t just fill a gap in a catalog. This compound results from years of process refinement, listening to what researchers and producers need, and working to keep up with changing market demands. Every batch passes through capable hands with an eye for detail because, let’s face it, nobody wants downstream surprises.
We classify our N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide under the model DM-SPC-03. That model code won’t mean much outside our own records, but it stands for a process underpinned by years of iterative improvement, not copied from patents or translated line-by-line from someone else’s synthetic route. Our process makes the compound cleanly and reliably. Drawing on practical feedback from formulation chemists and process engineers, we keep the impurity profile tight batch after batch.
In the plant, we watch for color, solubility, and odor clues at each critical control point. Drying conditions are recorded. Moisture checks are routine. We measure and confirm identity and purity with HPLC and NMR. Specific data for one batch: 99.2% minimum HPLC purity, melting point 194–197 °C, clear spectral matches to reference standards. If our QA doesn’t sign off, that lot won’t leave our site. Nobody here likes chasing complaints or reading deviation reports—so we do it right from the start.
N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide came into its own as biologists and pharma researchers pushed deeper into sulfonamide chemistry. This isn’t an everyday industrial commodity, so we rarely get bulk inquiries or orders running into multi-ton loads. We serve advanced applications—targeted syntheses, pharmacological intermediates, fine chemicals for drug discovery, sometimes even specialty crop protection formula trials. A few specialty polymer projects have turned up, but they’re the exception.
From our own conversations, chemists appreciate how N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide introduces the pyridine-3-carboxamide motif together with a dimethylsulfamoyl group. The balance between electron-withdrawing effects and steric influence appeals to those building complex structures. Our customers have reported successful couplings, regioselective substitutions, and ease of derivatization. Dry, free-flowing powder, minimal residual solvents, predictable performance. We’ve had a few ask about scaling, but the economies don’t work unless the project is quite targeted; this material holds its value in more focused, high-stakes uses.
We don’t just sell a name. The difference with our N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide shows up in the inbox—fewer urgent calls about batch inconsistency, fewer delays. Our approach cuts out guesswork. A couple of peer manufacturers push quantities, touting lower prices, but we’ve fielded several calls from new customers stuck with darkened, fouled-up product shipped from halfway across the globe. Poor control over byproducts or residual solvent leaves you with headaches, especially if you need high-purity material for regulated or patent-submission work.
We put emphasis on robust process control. Temperature ramps are validated, solvent swaps tracked carefully. By keeping control tight, we’re able to deliver product that fully dissolves as expected and keeps impurity peaks in the single digits ppm by HPLC. We don’t run mystery yields either; we log every output, we know where bottlenecks appear, and traceability goes back to the raw material drums. Our in-house team responds quickly to modify reaction parameters if feedback shows any new trends—moisture drift, seasonal air currents, even minor deviations get flagged. Over the last year, rejections or retests have trended downward, thanks to proactive investment in test instrumentation and training. That sort of data speaks louder than price sheets.
We’ve chosen to prioritize the physical characteristics that matter most in practice. White to slightly off-white crystalline powder, humidity below 0.5%, minimal clumping, and particle distribution that makes weighing and dispensing straightforward. The filtered product is dried under vacuum to sub-percentage moisture levels and then packed in lined HDPE containers. Each batch ships with a certificate reporting physical appearance, HPLC purity, NMR verification, and confirmed absence of specific trace impurities: no residual chlorinated solvents, and no common nitrophenol byproducts.
Process residues matter, especially for those in pre-formulation or regulatory submission work. To address this, we include routine GC-MS screenings looking for extraneous signals; we catch any unwanted volatiles early and rerun purification steps when needed. Those checks aren’t cheap, but skipping them is riskier. We don’t make safety data available for download, but we have files on hand for every batch, showing heavy metal levels below 10 ppm and no extraneous halides.
Our experience with N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide mostly centers on pharma and biotech labs working to expand sulfonamide structure-activity relationships. Medicinal chemists reach out when their older sulfonamide precursors limit reactivity or present poor yields. This compound often solves those limitations: the dimethyl groups reduce intermolecular side reactions in some Suzuki couplings and increase compatibility in next-step chlorination or N-alkylation.
Solubility features help in formulation. In water, it’s only sparingly soluble, but popularity comes from its ready dissolution in common organic solvents such as DMF, DMSO, or acetonitrile. Researchers working on solid-phase syntheses can dissolve accurate portions, filter without gumming up their resin beds, and keep their reaction mixtures homogeneous. That’s resulted in positive feedback, particularly from teams that previously struggled with other pyridine sulfonamide derivatives that left behind stubborn residues or required hours of heating to dissolve.
Handling always raises concerns—especially for those in small or isolated laboratories. This compound has a manageable safety profile, but careful handling is essential. We provide tightly sealed, moisture-resistant packaging and clear labeling. Some buyers prefer ampouled packaging for single-use scenarios, but our current operations can’t justify that scale; we stick to screw-capped bottles and tamper-evident seals.
On occasion, customers ask about environmental impact, particularly the fate of sulfonamide derivatives after use. Our records show minimal waste generation in our facility—most organic solvents are reclaimed, and unreacted starting materials are re-circulated. For end-users, suggested disposal involves incineration at high temperature due to the sulfonamide group’s resilience. This reduces environmental persistence, an ongoing industry concern; oversight and regulations continue to evolve, and we actively participate in best-practice working groups to keep our operations ahead of coming changes.
Years in the industry teach you how small differences leave a mark. Researchers call after running into trouble with comparable sulfonamide analogs—maybe a less substituted version, or a regioisomer produced by a competitor. Their problems usually start with inconsistent reactivity. Lower methylation, for example, can give higher byproduct formation or introduce points of unwanted reactivity in later synthetic steps. Other isomers tend to be less stable or more prone to forming impure residues when concentrated.
N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide stays stable under moderate storage conditions and holds up after several freeze/thaw cycles. It stores well at room temperature, in a dry place, and resists clumping even in the open air for moderate periods. By contrast, some analogs degrade within a month or cake together in hot, humid labs, complicating dosing.
Some customers have turned to imported options drawn by the promise of faster shipping or lower price points. Upon closer inspection, their disappointment becomes our opportunity: excess dust content, off-odors, and variations in melting point show sloppy process control at the source. We helped several labs switch, cleaning up unwanted baseline signals in their analytics and improving batch-to-batch matching for their scale-ups. Our own client base values close communication, real timelines, batch reservation, and the sort of supplier that will talk through problems instead of passing the buck.
No process locks in forever. We have spent years adjusting reactor charging schedules, optimizing pH adjustment rates, and hunting down trace impurities—sometimes invisible on standard tests. By logging feedback from our big customers, especially pharmaceutical process teams, we notice small trends: a slightly higher sulfur content indicating a pinch-point solvent evaporates marginally fast, or an uptick in a UV-absorbing impurity calling for tweaks to filtration speed.
On-the-ground learning pushed us to refine drying processes, shifting to lower-pressure evaporation that leaves a fluffier product and shortens downstream dissolution. We’ve also partnered with a local analytics lab for cross-verification of NMR and FT-IR, cross-checking our internal data yearly. In cases where a new request comes in—say, for a micro-quantities in sealed glass or with tighter specifications—we connect with the lab, adjust, and record any lessons learned. We document and feed those adjustments back into our operating procedures.
Beyond the lab, supply chain interruptions over the past few years have pushed us to double-source all main reagents, review every supplier annually, and substitute in more stable raw material grades when possible. By tracking lead times and monitoring global inventories, we manage to keep the product flowing, avoiding shortages other suppliers encounter. When delays do happen, open communication keeps clients in the loop instead of in the dark.
What we deliver with each pack of N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide is not just chemical, but reliability built up by years of deliberate work. Anyone with access to the right precursor compounds can, in theory, make most any molecule—a few chemists in a garage or a big firm on another continent. What sets us apart: the stubborn push for consistent quality, traceable batch records, a strong QA/QC link and, most of all, a willingness to listen to customer frustrations and adjust processes accordingly.
The regulatory world only grows stricter for pharma or agrochemical projects. Certification audits, spot checks, and regulator requests for purity records aren’t abstract threats—they’re part of daily reality. Our factory runs regular GMP compliance reviews, documents all deviations, and recertifies staff on annual schedules. Even so, we’re not robots and don’t promise perfection; mistakes get caught, and lessons become policies. We raise hands to customers promptly, resolving problems instead of dodging them.
We know from doing this work that chemical supply should never feel like navigating a black box. You should expect honest transparency—process notes, real batch data, and nothing hidden in fine print. Over the years, our files are stacked with customer-specific stories: someone in oncology research who needed ultra-clean batches for pilot studies, a crop science developer struggling with off-smell in their test formulations, or a university group facing scale-up wobbles when their supplier’s quality slipped. Lessons from those stories shape the way we run today.
Innovation does not stop, and the demand for novel sulfonamide derivatives follows new currents in research priorities. We have set aside resources for pilot campaigns aiming at derivatives, providing custom synthesis on a small number of orders where the chemistry makes sense. Some client feedback has suggested easier dissolution characteristics or alternate salt forms—those R&D requests are now under lab-scale evaluation.
We recognize that compliance, transparency, and predictable supply matter just as much as price. Today's market punishes the cut-corner operators—supply chain failures echo fast. Rather than focusing on standard sales pitches, we keep operations nimble, talk directly with our regular clients, and bring any technical challenges straight to the plant teams. A responsive approach means each issue can be addressed before it grows out of proportion.
Cost pressure always looms, and many market players aim to cut costs by outsourcing further and skimping on quality control. We see this in the rising tide of complaints among new customers burned by suppliers who chase lower costs without managing risk. We choose to compete by offering up-front value: transparent quality, reliable delivery, and practical responses to every inquiry.
We look forward to new developments in applications for N,N-dimethyl-2-sulfamoyl-pyridine-3-carboxamide. As regulatory requirements ratchet up, and researchers seek new moieties for difficult chemical targets, we’ll be ready with robust, honest product and clear data. For us, the conversation never ends with a shipment—it evolves, driven by the needs and feedback from those on the front lines of science and manufacture. That’s how trust, and progress, take shape in our industry, one molecule and one customer at a time.
