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HS Code |
393332 |
| Product Name | N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide |
| Molecular Formula | C9H6F3N3O |
| Molecular Weight | 229.16 g/mol |
| Cas Number | 870281-34-8 |
| Appearance | White to off-white solid |
| Purity | Typically ≥98% |
| Solubility | Soluble in organic solvents (e.g., DMSO, DMF) |
| Smiles | C(#N)CN(C(=O)c1cncc(c1)C(F)(F)F) |
| Inchi | InChI=1S/C9H6F3N3O/c10-9(11,12)6-2-1-7(5-14-6)8(16)15-4-3-13/h1-2,5H,4H2,(H,15,16) |
| Storage Temperature | Store at 2-8°C |
| Synonyms | N-Cyanomethyl-4-trifluoromethyl-3-pyridinecarboxamide |
As an accredited N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide 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 sealed amber glass bottle containing 5 grams, labeled with product name, CAS number, and hazard warnings. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Standard export packing, 20′ Full Container Load, securing N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide, moisture-protected, palletized, labeled, compliant with shipping regulations. |
| Shipping | Shipping of **N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide** is carried out in compliance with relevant regulations for laboratory chemicals. The compound is securely packaged in sealed containers, cushioned against impact, and labeled appropriately. Temperature and humidity controls may be applied, and all necessary shipping documentation accompanies the consignment to ensure safety and regulatory compliance. |
| Storage | **Storage for N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide:** Store in a tightly closed container in a cool, dry, and well-ventilated area. Keep away from sources of ignition, heat, and incompatible materials such as strong acids, bases, and oxidizing agents. Protect from moisture and direct sunlight. Use appropriate personal protective equipment when handling. Ensure proper labeling and restrict access to authorized personnel only. |
| Shelf Life | Shelf life: Store N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide in a cool, dry place; stable for at least 2 years. |
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Purity 98%: N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide with 98% purity is used in pharmaceutical intermediate synthesis, where high-purity input ensures optimal reaction yields. Melting point 110°C: N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide with a melting point of 110°C is used in chemical compound formulation, where controlled phase transitions facilitate precise mixing. Stability temperature 60°C: N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide stable up to 60°C is used in agrochemical development, where material stability prevents decomposition during formulation. Particle size 20 microns: N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide with a particle size of 20 microns is used in fine chemical processing, where uniform dispersion enhances reaction consistency. Moisture content <0.5%: N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide with moisture content below 0.5% is used in solid dosage drug manufacturing, where low moisture prevents hydrolytic degradation. |
Competitive N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide prices that fit your budget—flexible terms and customized quotes for every order.
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Years of chemical synthesis have taught us: any new molecule brings its unique personality into the manufacturing process. N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide is no different. Colleagues on the production line quickly realized that its behavior—through each step of crystallization, filtration, and drying—differs from related pyridinecarboxamides. Our hands-on experience developed familiarity with its texture and response, allowing us to deliver consistent batches where active content rarely deviates from our strictest internal limits.
Researchers and production chemists require unfaltering reproducibility in their reagents. With each order, we prepare this compound to the highest achievable purity, following rigorous in-process controls. Typical batches measure over 98 percent by HPLC, and our advanced drying methods keep moisture comfortably below 0.5 percent. All this stands on decades of applied knowledge that only originate from being on the factory floor through years of scaling up novel intermediates.
Customers often mention they need improved solubility profiles for their pyridine derivatives. Here, the introduction of a cyano group at the amide's α-position, together with the robust trifluoromethyl on the pyridine ring, delivers unique reactivity. Research groups in agrochemicals and pharmaceuticals value this compound for its dual electron-withdrawing substituents, which open up synthetic routes that standard pyridinecarboxamides cannot support.
We’ve partnered directly with two major R&D labs who struggled to incorporate this structural motif through less direct synthetic routes. Introducing our version of N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide removed multiple steps from their sequences, saving weeks of bench time and reducing byproduct contamination. Several agrochemical programs use this compound as a key intermediate when constructing new herbicide scaffolds, banking on its stability under both acidic and basic conditions.
Our technical staff receive first-hand updates from these users, reporting that the compound dissolves smoothly in common polar aprotic solvents, minimizing preparative headaches. That ‘hands-off’ attitude many commercial products encourage simply does not exist here. Our technical representatives remain available for feedback and consult directly with project teams when nuances in application or downstream chemistry emerge. The strength in these partnerships comes not just from molecular formula, but from the shared effort in troubleshooting and process optimization.
Similar pyridinecarboxamides have peppered our order books for years. But the N-(cyanomethyl) group dramatically changes the game. In one on-site evaluation, a research scientist compared outcomes using both our compound and a more common methyl-substituted analog. The cyanomethyl unit, being electron-poor, increases the latitude of nucleophilic additions and cyclization reactions, all while holding firm during aggressive coupling steps.
We supply this product in a variety of physical forms to fit diverse needs. Regular batches ship as a consistently free-flowing crystalline powder, a mark of properly controlled crystallization. For pilot-scale work, quantities in multi-kilo drums remain as uniform as the smaller laboratory supplies. Some customers request micronized material for enhanced dispersion in solid applications, a process we developed in-house to ensure minimal dust and consistent particle size distribution.
Laboratory feedback shows our compound resists discoloration under ambient storage better than similar products from smaller facilities. That’s partly due to our closed-system drying and inert packaging, which shield each kilogram from oxidative influences and humidity swings that can threaten batch integrity. That sort of technical detail becomes immediately visible to a user who’s grown tired of remediating inconsistent input chemicals, especially on tight project timelines.
Scale-up is never a matter of simply doubling batch size. In the real world, solvent ratios, agitation speeds, and filtration dynamics can behave unpredictably. Producing multi-kilo lots of this molecule required intensive adjustments—sometimes down to the shape of our reaction vessels. Our early lab studies pointed out possible exothermic risks during cyanomethyl addition, pushing us to refine both temperature control and addition timing.
We faced downstream processing hurdles, too. Initial filtrations left micron-scale fines that slipped through standard filters. Our team methodically iterated between filtration aids and centrifugation parameters, eventually securing a process that yields crystal-pure solid with no detectible carry-over. Customers who previously purchased material with visible particulates immediately note the difference in color and ease of dissolution.
Routine in-process testing—FTIR, NMR, and, for select lots, LC-MS—extends far beyond regulatory checklists. Each batch is signed off only after spectral data matches our established library, and deviations trigger root-cause investigations that involve everyone from operators to QC chemists. This practice has directly contributed to our exceedingly low return rate on specialty pyridine intermediates, building trust with recurring customers across three continents.
A compound’s journey doesn’t end after synthesis. Over the years, we’ve seen too many projects halted by inferior packaging or overlooked storage instructions. Our process ensures every shipment remains nitrogen blanketed, especially for bulk users with warehouse turnover exceeding six months. The carton or drum you receive remains free from external contamination or humidity intrusion—a step that has repeatedly saved clients from unpleasant surprises later in their supply chains.
We annotate every shipment with recommended storage ranges, though the compound’s inherent stability at room temperature relieves most concerns. Our technical team stands ready to advise on compatibility with various container linings and storage infrastructure, having learned through real-world mishaps what can go wrong. Several clients, having once faced inconsistent reactivity from substandard starting materials, now place confidence in our supply, knowing stability and purity hold up over extended timelines.
Requests for documentation—analytical certificates, shelf-life studies, impurity tracking—get handled promptly rather than shuffled into a distant customer-service queue. That mindset traces back to our founding years, when customer retention depended more on reputation and problem-solving skills than modern marketing channels. Today, we keep that approach at the crux of every customer interaction, treating each inquiry as an opportunity for technical exchange.
Ever since launching commercial scale production of N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide, our plant team has seen this molecule taken up by innovators in both industry and academia. Recent feedback from a pharmaceutical research unit outlined a streamlined process made possible by the compound’s selectivity in amide bond formation and the ability to withstand both acidic and basic regimes encountered in their synthetic sequence. Projects in agricultural chemistry tell similar stories, with the compound’s robust thermal and chemical stability supporting aggressive synthetic campaigns under elevated pressures and temperatures.
Our engagement does not stop with the shipment. Follow-ups sometimes reveal unmet needs or frontline innovations that steer our internal process improvements. For example, after hearing of an unexpected solubility issue in a newly introduced solvent system, our team devised a recrystallization protocol to cleanly regenerate material from process residues, saving a client several thousand dollars over a multi-ton campaign. That case directly improved our internal purification guidelines, which now benefit every customer.
We understand how procurement decisions stretch beyond a spec sheet. In reality, project chemists evaluate material on ease of integration into their workflows, reliability in multi-step syntheses, and the ability to trace any anomaly back to source with full transparency. Years at the bench and in the plant have shown that price sensitivity always remains present—but never at the cost of unpredictable reactivity or downstream contamination.
Anecdotes from long-term partners reinforce the compound’s reputation for low impurity carryover and high batch-to-batch reproducibility. In one instance, a pharmaceutical formulation team reported completing a scale-up without a single rejected batch, crediting the lot-to-lot consistency in active content and physical grain. These stories travel further than any advertising campaign, and often form the starting point for new project collaborations or product development.
Final formulation teams value transparency in raw material origins and handling practices. Our QC documentation details trace elements and potential residual solvents, based on analysis techniques refined year after year. That kind of honesty, fostered by experiences running the lines and troubleshooting real-world deviations, remains essential not only for regulatory adherence but for earning genuine customer trust.
We make it a routine to audit our production and handling every quarter, guided by lessons from daily practice and customer input. Minor tweaks—whether in solvent mixes, drying cycle adjustments, or improvements to grinding and sieving—collectively shape the higher standard customers experience today. Our team recalls instances where a single parameter shift resolved months of recurring customer complaints, showing the value of small science-led corrections over the pursuit of shortcuts.
We maintain readiness for regulatory changes and periodically update both our environmental and quality certifications. Knowing first-hand what audits demand, we keep process trails, original batch records, and analytical results on hand, making regulatory compliance a matter of straightforward documentation, not an afterthought.
Members of our plant and R&D teams present at conferences and technical meetings, where we share detailed process learning—including tales of accidental discoveries and the steps we took to convert them into repeatable improvements for N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide and its close analogs. This type of engagement brings unexpected technical suggestions, which sometimes lead to cross-discipline advances.
Long-term collaboration with chemists across industries led us to understand priorities can shift project by project. Organic synthesis is full of surprises, and reliable suppliers become trusted partners, not just order-takers. By opening dialogue on process, stability, and application questions, we see projects succeed that might otherwise have stalled at the intermediate stage. One major advantage comes from our willingness to generate fresh analytical solutions—whether a new impurity profile or validation of an unconventional solvent system—based directly on feedback from the field.
Sharing candid lessons, right down to descriptions of off-spec batches and corrective actions, assures new customers they are dealing with a team grounded in real production conditions. No manufacturing process is immune to surprises, but taking a partnership approach means challenges are flagged and resolved collaboratively, not after-the-fact. This cycle of transparent troubleshooting and improvement defines our relationship with N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide users worldwide.
As more research teams pursue fluorinated pyridinecarboxamides for complex molecule construction, our compound stands poised to fill a unique niche. The combination of cyanomethyl and trifluoromethyl substituents, impossible to achieve with less specialized suppliers, creates a new foundation for derivatives with improved bioactivity and novel electronic profiles. Calls for scale-up support continue to grow, with demand coming from both traditional pharmaceutical strongholds and emerging biotech startups.
Our continued investment in process R&D for this compound reflects belief in its evolving application base. Whether for medicinal chemistry, crop protection, or advanced material development, our focus on reproducible quality, direct technical engagement, and rapid problem resolution remains unchanged. Every lot carries not just a compound, but the sum of hard-earned experience, a commitment to transparency, and a real-world understanding of what it takes to turn novel molecules into finished products.
Manufacturing N-(Cyanomethyl)-4-(trifluoromethyl)-3-pyridinecarboxamide never followed a simple script or generic protocol. We learned—often the hard way—how to work with the compound’s distinctive profile, and how to help customers get the best possible results in their own hands. Technical expertise, consistent quality, and open communication all play critical roles in what we deliver. Standing by every shipment, our team takes pride in each order’s journey from raw input to essential building block within the world’s labs and plants.
