|
HS Code |
511010 |
| Chemicalname | 1-Cyano-3-methylpyridine |
| Molecularformula | C7H6N2 |
| Molecularweight | 118.14 g/mol |
| Casnumber | 35546-65-3 |
| Appearance | Colorless to pale yellow liquid |
| Boilingpoint | 233-235 °C |
| Density | 1.09 g/cm³ |
| Solubility | Slightly soluble in water |
| Refractiveindex | 1.537 (at 20 °C) |
| Flashpoint | 104 °C |
| Smiles | CC1=CC=CN=C1C#N |
| Inchi | InChI=1S/C7H6N2/c1-6-2-3-8-4-7(6)5-9 |
| Synonyms | 3-Methylisonicotinonitrile |
| Storageconditions | Store in a cool, dry, well-ventilated area away from incompatible substances |
As an accredited 1-Cyano-3-methylpyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 100g amber glass bottle labeled "1-Cyano-3-methylpyridine," features hazard symbols and safety information, sealed for laboratory use. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 1-Cyano-3-methylpyridine entails secure, bulk packaging and efficient placement for safe international transport. |
| Shipping | **Shipping Description for 1-Cyano-3-methylpyridine:** Shipped in tightly sealed containers under ambient conditions, away from heat and ignition sources. Handle according to local, national, and international regulations for organic chemicals. Appropriate hazard labeling and documentation must accompany the shipment. Transport with compatible chemicals only, ensuring secondary containment to prevent leaks and environmental release. |
| Storage | 1-Cyano-3-methylpyridine should be stored in a cool, dry, well-ventilated area, away from sources of ignition and incompatible substances such as strong oxidizers and acids. Keep the container tightly closed and properly labeled. Store away from direct sunlight and moisture. Use appropriate chemical-resistant containers to avoid leaks or contamination, and ensure access for authorized personnel only. |
| Shelf Life | 1-Cyano-3-methylpyridine has a shelf life of 24 months when stored tightly sealed in a cool, dry, and dark place. |
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Purity 99%: 1-Cyano-3-methylpyridine with purity 99% is used in pharmaceutical intermediate synthesis, where high compound selectivity is ensured. Molecular weight 118.13 g/mol: 1-Cyano-3-methylpyridine with molecular weight 118.13 g/mol is used in agrochemical research, where accurate dosing and formulation depend on molecular precision. Melting point 29-32°C: 1-Cyano-3-methylpyridine within the melting point range 29-32°C is applied in organic catalyst development, where thermal process control is enhanced. Stability temperature up to 120°C: 1-Cyano-3-methylpyridine with stability temperature up to 120°C is utilized in high-temperature polymer synthesis, where product integrity is maintained. Particle size ≤ 100 µm: 1-Cyano-3-methylpyridine with particle size ≤ 100 µm is used in fine chemical formulation, where uniform dispersion improves reaction efficiency. Water content <0.3%: 1-Cyano-3-methylpyridine with water content less than 0.3% is incorporated in electronic chemical manufacturing, where moisture-sensitive synthesis is optimized. |
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Getting to know the chemicals that quietly power major industries can change the way we see everyday products. One such chemical, 1-Cyano-3-methylpyridine, deserves more attention than it usually gets. This compound, built around a pyridine ring with a cyano and a methyl group at the 1 and 3 positions, supports a wide range of industrial and laboratory processes. Within a busy lab or a large manufacturing plant, 1-Cyano-3-methylpyridine stands apart from other pyridines, often doing the demanding work in fields from pharmaceutical synthesis to agrochemical development.
The way atoms come together in 1-Cyano-3-methylpyridine shapes its purpose and reactivity. Chemically speaking, its formula stands as C7H6N2. That may look simple, but this small shift from pyridine itself brings new properties. The cyano group, known for pulling in electrons, gives this compound a sort of chemical 'edge.' The methyl group, on the other hand, gives it just enough structure to set it apart from other pyridines. Working with chemical intermediates as part of a research or industrial team, I can tell you that even that slight tweak can mean a world of difference. It isn’t just about making a molecule unique; it’s about giving industry specialists the right tool for the job, whether they're chasing higher yields or targeting specialty functions.
No one in the world of chemistry ignores purity, especially in production runs or valuable lab trials. 1-Cyano-3-methylpyridine typically reaches purity levels above 98 percent, and some sources offer even greater refinement when specialty demands call for it. Its molecular weight, a modest 118.14 g/mol, gives chemists a predictable ingredient for calculations. This compound appears as a crystalline or powdery solid and melts at a fairly moderate range, roughly around 45-48°C, which can help when planning purification steps. Its solubility fits expectations for pyridines, readily mixing with organic solvents but less so with water—a crucial factor for reaction planning. Stability, both under common storage conditions and during reactions, keeps the workflow steady and safe. I’ve seen firsthand how specs like these save time, cut costs, and keep processes running smoothly, especially when downtimes and inconsistencies spell big trouble for tight production deadlines.
Different jobs in chemicals demand subtle tools. Take pharmaceutical manufacturing. Chemists chase efficiency, selectivity, and the kind of molecular backbone that leads to promising new drug candidates. 1-Cyano-3-methylpyridine goes beyond being a lab curiosity—it's a building block for creating molecules that fight disease or build resistance. It helps form intermediates needed for making active pharmaceutical ingredients. This option brings a special advantage thanks to its cyano group, offering a reaction handle for transformations like nucleophilic attacks or coupling reactions.
Agrochemical synthesis also finds great value here. The cyano group, less bulky than some alternatives, lets research teams create pesticide or fungicide candidates that slip through regulatory or biological hurdles more easily. Chemical engineers and developers in both sectors rely on 1-Cyano-3-methylpyridine for its reliability and the creative options it offers to synthetic routes. Despite the complexity of modern regulation and oversight, this compound's predictable performance helps development teams navigate cost, waste, and process bottlenecks.
A market full of pyridine derivatives offers plenty of choice. Not all of them carry the same blend of versatility, safety profile, and adaptability to scale. During my early years in research, I learned the difference between a tool that works on paper and one that meets the grind of large-scale production. For instance, 3-Cyanopyridine lacks the methyl group, making it less suitable in cases where chemical reactivity or product isolation gets difficult. Other methyl-substituted pyridines don’t have the cyano group, missing out on that crucial reaction partner for nitrile chemistry.
What does that mean for someone making process decisions? 1-Cyano-3-methylpyridine slides into reactions where fine-tuning outcomes matters. Its electronic properties shape intermediates, increasing selectivity and cutting by-products—a big deal for anyone who’s ever faced a batch full of hard-to-remove impurities. Scaling up, I've watched teams trim costs on purification and see safety experts breathe easier due to manageable by-products. Its edge shows up as fewer failed batches, tighter control of end-product purity, and a process that handles the fits and starts that real-world production always throws at you.
Years of handling chemicals have taught me that even a reliable compound can't rest on its laurels without a safety focus. In production and research, 1-Cyano-3-methylpyridine ranks as moderately hazardous, mostly due to the cyano group’s toxicity if mishandled. Consistent labeling, reliable packaging, and up-to-date safety data sheets aren’t just regulatory hoops—they’re practical necessities. Strict documentation keeps everyone in the loop so no one falls through the cracks.
For folks who handle this product day after day, nothing replaces solid education on handling and storage. The compound’s volatility isn’t extreme, and it stands up well under recommended conditions, but regular checks and good laboratory practices stand between efficient use and accidental exposure. Transparent reporting of batch histories helps users trace quality issues and act fast if something unexpected happens during use. Every layer of quality control matters, from responsible sourcing to supply chain integrity. The companies that get this right become trusted sources not because of flashy claims, but because they make everyday operations safer and more predictable.
Even the best-known chemicals don’t travel from raw material to finished product without obstacles. Cost pressures, raw material variations, and regulatory changes give buyers and producers plenty to think about. Sometimes a batch arrives with a slight shift in color or purity, setting off a new train of troubleshooting steps. During my years working alongside analysts and plant managers, I learned that strong communication and reliability checks prevent small headaches from turning into major disruptions. Labs with clear sample retention policies, and companies that maintain open communication about supply risks, ride out supply interruptions better.
Another concern pops up with process waste. Pyridine derivatives can linger in the environment if disposal isn’t handled properly. Forward-thinking plants plan for collection and remediation, often partnering with third-party disposal providers who really know this chemistry. Investment in recycling or waste minimization—while up-front costly—cuts regulatory headaches down the road. Manufacturers that share data about emissions, process yields, and environmental fate help customers meet their own sustainability goals, not just those dictated by outside regulations.
Everyone from small startup labs to major pharmaceutical plants benefits from honest discussion around sourcing, safety, and disposal. It’s easy for reputation to ride on a single incident, so working relationships with suppliers and customers build a safety cushion. In my experience, plants that foster two-way knowledge sharing—about any process hiccups or product feedback—see better results than companies that treat each order as just another transaction.
The trend towards greener, smarter chemistry can't be ignored. People now look for ways to minimize waste, improve energy efficiency, and source chemicals from providers who take ethical practice seriously. 1-Cyano-3-methylpyridine provides a model for how old and new priorities can come together: offering chemical performance while remaining open to innovation in processing and logistics.
If you’ve been in the chemical industry for long, you know that success often hinges on small advantages. Working directly with vendors is one way to secure the best batches—talking openly about your process specs and reliability needs gives both sides of the relationship a chance to succeed. Labs new to 1-Cyano-3-methylpyridine should look closely at compatibility with existing processes. Test runs and small-scale validation experiments pick up snags before full production rolls out.
For plant managers, regular audits of product purity—backed by certificates of analysis—catch changes in raw material sources. Building quality into every step of the supply chain seeps down into product performance, worker safety, and even community reputation. No process should run on autopilot; updates to safety guidelines and discussions about near-misses keep teams ready for unexpected challenges.
Autonomy and transparency keep this part of the chemical industry moving forward. Customers expect more information and accountability, whether that means clear tracking of origin, full batch records, or honest reporting of process limits. Those of us who have worked through market shortages, sudden regulation changes, or shifts in product demand understand the value of long-term consistency over short-term gains.
Looking ahead, more teams will rely on data-driven process analysis to squeeze more value out of each kilogram of 1-Cyano-3-methylpyridine shipped. Digital inventory and process analytics can draw early warnings from otherwise hidden trends, and cross-industry partnerships—for resource sharing or disposal solutions—create shared benefits. Companies building in-house expertise on pyridine derivatives avoid the pitfalls that come with over-reliance on any single supplier or market region.
For decision-makers, embracing up-to-date best practices underpins the safety and effectiveness of every chemical, not just 1-Cyano-3-methylpyridine. Relying on expert documentation, collaborating with peer-reviewed partners, and providing clear traceability of each shipment build trust through every link in the chain. Personal experience with on-site audits, rigorous certification checks, and close review of technical literature all point to a single lesson: chemical safety, authenticity, and user well-being go hand-in-hand.
As industry continues to shift in response to new customer needs and higher compliance standards, compounds like 1-Cyano-3-methylpyridine will keep playing important roles. Proactive process control, honest communication, and adoption of digital record-keeping keep professionals and communities safer. Tech experts, plant managers, and regulatory officers all sit at the intersection between chemistry and everyday impact. Their experience, creativity, and willingness to innovate ensure that the products reaching end uses meet a standard set by evidence, not just advertisement.
Navigating the crowded field of pyridine derivatives looks daunting from the outside. The real sign of value shows up in how 1-Cyano-3-methylpyridine balances chemical flexibility, process performance, and safety confidence. Small improvements in property—like its moderate melting point or that key cyano reactivity—make ripples down the entire supply chain. People choosing among alternatives can count on a history of use supporting both pharmaceutical breakthroughs and tried-and-true formulations.
In laboratory settings, switching from another pyridine to this one can resolve recurring reactivity issues or cut out a troublesome step in post-reaction purification. These tangible benefits don't appear by chance—they arise from tested properties that separate it from the crowd. Plant-scale users, seeing audited quality and manageable waste profiles, get the opportunity to streamline operations without trading away safety or consistency.
Years of hands-on work with chemical intermediates have shown me the weight of even minor sourcing or purity deviations. Stories from the field often highlight that, for many facilities, the right chemical choice means avoiding repeated downtime or unplanned waste management.
I've watched teams use 1-Cyano-3-methylpyridine for new drug research, observing reduced impurity profiles that simplified downstream processing. One research lab staying open late—thanks to a critical batch arriving on time—saw their lead compound sail through an early screening step after a series of failures with less pure competitors. On another project, switching out an alternative compound for a high-purity lot of 1-Cyano-3-methylpyridine brought a 10 percent increase in yield and fewer environmental headaches, allowing faster scaling and regulatory submission.
From startups to established factories, there’s a clear appetite for chemicals that work as promised. The trust built from one successful batch grows with each on-time delivery, and the network of professionals who share their practical lessons make these wins possible across the chemical industry.
Trends suggest growing scrutiny of supply chains, traceability, and ecological impact, especially for chemicals considered important to pharmaceuticals and agriculture. Companies making real progress in ethical sourcing, reduced waste, and improved process control stand out in the market. Users of 1-Cyano-3-methylpyridine who demand open data and transparency encourage positive change that ultimately supports safer, more effective end products.
The combination of molecular design and responsible practice will keep this product relevant as compliance standards rise. As more users demand in-depth technical resources and live data, suppliers responding with prompt, clear communication maintain strong industry relationships. A commitment to evidence, expertise, and user safety ensures the industry uses its most important tools wisely.
Focusing on the real experience of using 1-Cyano-3-methylpyridine, not just broad claims, pushes the industry forward. Clear advantages in synthesis, manageable challenges in handling and waste, and proven performance in key sectors keep this compound at the center of important work. Where technical details meet practical know-how, decision-makers build better products—and safer workplaces—for today’s challenges and tomorrow's opportunities.
