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HS Code |
725115 |
| Chemical Name | N'-Hydroxypyridine-3-carboximidamide |
| Molecular Formula | C6H7N3O |
| Cas Number | 262368-09-2 |
| Appearance | White to off-white solid |
| Melting Point | 174-178°C |
| Solubility | Soluble in DMSO, slightly soluble in water |
| Purity | Typically ≥ 98% |
| Storage Conditions | Store at 2-8°C, protected from light |
| Synonyms | 3-Pyridinecarboximidamide, N'-hydroxy- |
| Smiles | C1=CC(=CN=C1)C(=N)N O |
| Inchi | InChI=1S/C6H7N3O/c7-6(8-10)5-2-1-3-9-4-5/h1-4,10H,(H3,7,8,9) |
As an accredited N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 25-gram amber glass bottle with a white screw cap, labeled with the chemical name, hazard symbols, and handling instructions. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Ships 9–11MT N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE, packed in 25kg drums, securely palletized for safe, efficient transport. |
| Shipping | N'-Hydroxypyridine-3-carboximidamide is shipped in tightly sealed containers, protected from moisture, light, and extreme temperatures. It should be handled in accordance with standard chemical safety protocols, including proper labeling and documentation. Shipping complies with relevant regulations (such as DOT, IATA, or IMDG), ensuring safe transport and minimal risk of contamination or degradation. |
| Storage | N'-Hydroxypyridine-3-carboximidamide should be stored in a tightly sealed container, kept in a cool, dry, and well-ventilated area away from incompatible substances such as strong oxidizers and acids. Protect from light and moisture. Clearly label the container and follow standard laboratory chemical storage protocols, ensuring restricted access to authorized personnel only. Wear appropriate personal protective equipment when handling. |
| Shelf Life | N'-Hydroxypyridine-3-carboximidamide should be stored cool, dry, tightly sealed; typical shelf life is 2-3 years under proper conditions. |
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[Purity 98%]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high-yield and reduced byproduct formation. [Molecular Weight 166.16 g/mol]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE at molecular weight 166.16 g/mol is applied in drug discovery pipelines, where consistent molecular profiling accelerates lead optimization. [Melting Point 221°C]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with a melting point of 221°C is used in high-temperature reaction processes, where its thermal stability enables reliable compound formation. [Particle Size ≤20 µm]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with particle size ≤20 µm is used in formulation of fine chemical reagents, where improved solubility enhances homogeneous reaction kinetics. [Solution Stability up to pH 9]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE exhibiting solution stability up to pH 9 is used in buffered analytical assays, where it maintains chemical integrity over extended testing periods. [Water Solubility 5 mg/mL]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with water solubility of 5 mg/mL is used in aqueous catalytic applications, where rapid dissolution facilitates uniform reactant distribution. [Reactivity Index 0.85]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with reactivity index 0.85 is used in controlled oxidation reactions, where moderate reactivity minimizes unwanted side reactions. [Storage Stability 24 months at 25°C]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with storage stability of 24 months at 25°C is used in long-term laboratory stock solutions, where reduced degradation supports reproducible experimental results. [UV Absorption λmax 275 nm]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with UV absorption at λmax 275 nm is utilized in spectrophotometric detection assays, where precise absorbance readings enable accurate quantification. [Purity by HPLC ≥99%]: N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE with HPLC purity ≥99% is used in active pharmaceutical ingredient (API) manufacturing, where high-purity input assures product compliance with regulatory standards. |
Competitive N'-HYDROXYPYRIDINE-3-CARBOXIMIDAMIDE 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 the chemical industry, choosing the right intermediate shapes the results you get in the lab and on the production line. As a direct manufacturer of N-Hydroxypyridine-3-carboximidamide, we invest time and energy in fine-tuning every aspect of its creation. Each batch tells a story of meticulous adjustments and hands-on control over raw materials, temperature, and purity. We draw from years overseeing reactors, watching how minor tweaks affect crystallization, solubility, and eventual reactivity. This attention ensures you receive a compound that stands firm to its specifications, batch after batch.
Our workers benefit from a close loop between research and the plant floor. Every detail, from the rigor of analytical checks to the design of equipment, feeds back into smoother workflows and more dependable yields. The pride comes not from chasing certifications but from seeing a customer call back — not to complain but to reorder based on strong results in their own output. N-Hydroxypyridine-3-carboximidamide has earned a place in our portfolio through consistent feedback and iterative improvement, always linked with conversations across lab and production teams.
As chemical manufacturers, we don’t cut corners to chase fancy descriptors. We look at the fact that N-Hydroxypyridine-3-carboximidamide provides a stable profile for those working in pharmaceutical, agrochemical, and advanced material synthesis. Stability under a range of pH conditions, resistance to premature decomposition, and clean crystallization matter on a practical basis — not as marketing points, but because they remove daily headaches during scale-up or formulation.
Production starts by sourcing the highest grade pyridine derivatives, controlling impurities at the earliest step. Many forget that handling intermediates with high nucleophilicity, like the hydroxylamine component, can cause undesired byproducts if moisture sneaks in or if reaction rates swing out of balance. Our years spent monitoring every stage, right down to how long to dwell at specific temperatures, has given us a clear sense for how to keep side reactions at bay. We never rely on just standard protocols — we tune our process through relentless in-house trials and real-world data, not just textbook formulations.
N-Hydroxypyridine-3-carboximidamide hits a molecular weight around 152–155, a value we cross-verify through high-accuracy mass spectrometry each cycle. Purity matters most — assays consistently land above 99%, verified not just by HPLC but subjected to additional checks using NMR and FTIR for adulterants. This isn’t about showing off instrumentation — it's a response to customers who show us the downstream issues that crop up even with trace contaminants.
We produce several “models” or grades, each mapped to a certain user base. Some purchase in small quantities for early-stage research, so we prepare highly characterized, small-lot batches shipped in glass or polymer-sealed containers to prevent any loss in quality. Commercial buyers in pharma or agrochemicals order in kilos; for them, we layer in extra analytic controls and monitor particle size more tightly, since caking or flowability changes—even minor—can snarl processes later on. All grades match their specs, but the path to each involves different tweaks, whether it’s in the drying step, the crystallization regime, or the selection of solvents.
Those who work with N-Hydroxypyridine-3-carboximidamide frequently share their pain points: inconsistent solubility from batch to batch, or slight color changes signaling impurities. We address these with a feedback loop that runs not just from sales to QC, but directly to synthesis teams who know exactly which phase or raw input to adjust. The result is a product line that consistently meets users right where their needs intersect with our knowledge.
We listen closely to why chemists rely on this compound. In pharmaceutical synthesis, it serves as a reliable building block for potential active ingredients — its imidamide group offers a reactive site for constructing more elaborate molecules. Agrochemical developers look to its stability and versatility, where even slight improvements in purity or consistency can mean the difference between progress and project delays.
Through years spent at the bench and in the plant, we hear clear signals: customers want a product that dissolves at predictable rates, doesn’t foam unpredictably during mixing, and won’t change profile under varied storage. Some ask us to adapt the particle size for their continuous flow reactors; others need tailored packaging to prevent static clumping. We focus on each in turn, because no two requests are quite the same. Over time, these demands have taught us that offering flexibility — not standardization — gains respect and repeat business.
Quality control steps happen inside our facilities, not by outsourcing. Each lot receives a unique code — our workers connect actual test results, not just digital entries, to the final product credentials. In practice, measuring moisture content tells only half the story; our teams hand-inspect flow properties and color as well, especially for large-lot orders where subtleties can become amplified.
We train our teams to notice the smallest change — odor signaling residual solvents, or minor shifts in bulk density. Our production runs integrate feedback from the pilot scale, so customers scaling up from grams to kilograms find smoother transitions. This isn’t about ticking regulatory boxes, though compliance matters; it's about confidence built from repetition and analysis under real working conditions.
Our work with pharmaceutical partners runs deep. Early in a project’s lifecycle, research teams rely on small but highly consistent lots for medicinal chemistry. Down the line, as candidates show promise, the volumes grow and so do the stakes. Chemical purity influences not only yield but regulatory acceptance; a single impurity can mean lost time and effort. Customers have called on us to resolve problems sparked by competitors’ inconsistent material. Each time, we traced the root cause — from mismanaged solvent removal to poorly handled air-sensitive steps — and built new controls to eliminate these risk points in our operation.
We see similar stories in agrochemicals and advanced materials. The demands vary — sometimes reaction time is critical, sometimes it's the need for clean side-chain modification. End users tell us straight when they need a lot that handles extended storage or travel without yellowing or lumping. We take this seriously and continually test our lots in different packaging and shipping conditions. Test results in the lab mean less if the product fails during transit to Asia, Europe, or the Americas, so shipping logistics become another extension of our hands-on quality oversight.
Unlike some derivatives, N-Hydroxypyridine-3-carboximidamide stands out through its combination of chemical reactivity and physical stability. Our experience shows that while some related imidamides can degrade under modest heat or light, our process delivers a powder that tolerates real-world exposures during handling and storage. We’ve seen researchers default to less stable alternatives out of habit, only to report poor reproducibility or safety headaches.
This compound carries a greater margin for safe handling during upscaling compared to more volatile or moisture-sensitive pyridine derivatives. We’ve refined our drying and packaging protocols so that users see minimal caking or dust generation, issues that can plague competitors’ materials produced with rushed or less controlled steps. Experience from hundreds of feedback cycles led us to these changes, showing us that end-to-end control matters as much as the molecule itself.
We sometimes receive questions about alternatives in drug or agrochemical synthesis. While N-Hydroxypyridine-3-carboximidamide shares some applications with other amidoxime or imidamide analogs, its structure brings advantages in terms of both process flexibility and final compound purity. Our relationships with industry partners have convinced us that these advantages play a big role in long-term project success rates — fewer failed reactions and less time spent troubleshooting inconsistent starting points.
Safe use and downstream impact matter as much as chemical structure or analytical results. Our team works daily to minimize solvent and raw material waste at every production stage. Our closed systems reduce personnel exposure and environmental footprint alike. These aren’t abstract commitments — they spring from real conversations between shift workers, managers, and local authorities who see the tangible impact of chemical manufacturing on neighborhoods and workplaces.
Customers trust us not just through words, but by conducting audits, walking our production lines, and reviewing real documentation linking every drum or bottle back to raw material sources and processing steps. Health and safety training isn’t just about regulations; it’s a necessity learned through years of seeing what can go wrong when procedures slip, even briefly. We invest in exposure monitoring, emergency preparedness, and ongoing improvement of containment protocols. Honest, clear labeling, and unambiguous certificates of analysis follow every order out the door.
Improving product performance doesn’t happen once — it’s repeated with each round of supplier inspections and after-action reviews of customer projects. We’ve shifted drying temperatures, retuned crystal size ranges, and regularly upgraded our filtration lines based on real-world outcomes. Those changes start from ideas on the floor, not from management edicts, and they’re only confirmed in practice.
Each time we catch a subtle physical impurity or hear a report of batch-to-batch variance, we trace the origin to a piece of equipment or a raw input. Sometimes that means parting ways with a supplier who can’t match our bar for consistency. Our ironclad rule: only ship what we’d use in our own lab, with no exceptions. Batch records are open to review, and customers have visited us to see the process in person; transparency isn’t just a promise, it’s part of the routine.
Long experience shapes everything we do. Shipping delays, regulatory hurdles in different markets, even cyclones or raw material shortages — these are disruptions we expect and plan for. Our solution always narrows down to controlling as much of the value chain as possible, keeping tight backup stocks of critical reagents, and training multiple crews to flex across steps when one part goes down. It keeps timelines on track, even against headwinds.
The other persistent challenge — staying current with evolving market and customer needs — comes from two-way communication with end users. We push through periodic upgrades to both process and analytics: automating moisture checks, enhancing filtration, and trialing new packaging to address static or clumping. At every step, we validate changes with real-world feedback, not theory alone. If any user sees a performance issue in a given application or run, we bring the sample back, investigate root cause, and recalibrate both process and QC accordingly.
Every production cycle, as the equipment runs and test samples get drawn, we look for improvement. Industry moves fast — a tweak in a customer’s synthetic route, a sudden need for tighter spec limits, an uptick in demand for green manufacturing — these drive us as much as market forces. Each improvement makes its way into both process sheets and training, and the knowledge becomes shared culture, not just individual experience.
We’ve built a company culture that rewards expertise at every level. New ideas from line workers, chemists, and even logistics staff feed forward into real change. Communication with end users brings practical perspective: their hurdles become our future projects. Testing and learning happen daily. Customers know we don’t push back — instead, we open the doors to our process, invest in better monitoring, and integrate what we learn into routine practice.
Every vial, drum, or sack of N-Hydroxypyridine-3-carboximidamide carries a chain of trust built on shared technical language and respect for practical issues. Our work doesn’t stop at synthesis; packaging, storage, and logistics each earn focus and hands-on attention. For shipment across town or around the globe, we select containers and protection based on season, route, and customer schedule. Users depend on timelines, not just purity, and we’ve developed robust logistics planning to match.
It doesn’t matter how pure a lot starts out if humidity creeps in, or if material cakes during months at sea. We bring same rigor to export paperwork and tracking as to QC checks on the plant floor; both matter, and both feed back into a satisfied repeat customer. Each dispatch links to original batch analytics, and every complaint or success generates real learning that shapes next runs. We answer questions openly, support trials, and troubleshoot problems — not as a side job, but as part of the manufacturing DNA.
Science never stops. Researchers continually uncover new roles for N-Hydroxypyridine-3-carboximidamide in next-generation synthesis routes. We see inquiries for tailor-made grades, requests for new analytic documentation, or interest in sustainable processing. Each challenge gives us a reason to push boundaries, evaluate greener alternatives, and deepen collaboration with partners old and new. No batch represents just raw materials; it’s mixed, filtered, and finished with decades of hard-earned insight.
As manufacturers, we keep the doors open for customer visits, joint development, and honest conversation. Issues don’t hide long in our process. Every colleague and collaborator plays a role in keeping standards high, communication honest, and improvements constant. Through it all, the focus stays practical — making a trusted, adaptable, and safe product with chemistry that works, every time and at every scale. N-Hydroxypyridine-3-carboximidamide earns its reputation not through promise, but proven daily results and a community of users who know and trust the process behind each order.
