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HS Code |
650629 |
| Iupac Name | 2-cyano-3-[2-(3-chlorophenyl)ethyl]pyridine |
| Molecular Formula | C14H11ClN2 |
| Molecular Weight | 242.70 g/mol |
| Appearance | White to off-white crystalline powder |
| Melting Point | Approx. 100-120°C (literature or estimated) |
| Boiling Point | Estimated >300°C (decomposes) |
| Solubility In Water | Slightly soluble |
| Density | Approx. 1.2 g/cm³ (estimated) |
| Logp | 3.2 (estimated, predicts hydrophobicity) |
| Flash Point | >150°C (estimated) |
As an accredited 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Sealed amber glass bottle, labeled "2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine, 100g," with hazard pictograms and safety instructions. |
| Container Loading (20′ FCL) | 20′ FCL is loaded with securely packed drums of 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine for safe transport. |
| Shipping | The chemical **2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine** is shipped in tightly sealed, chemically resistant containers. It is packed under dry, cool conditions, compliant with safety regulations. Proper labeling and documentation accompany the shipment, with precautions to avoid exposure or spillage during transit. Specialized carriers handle the delivery as per hazardous material guidelines. |
| Storage | 2-Cyano-3-[2-(3'-chlorophenyl)]ethyl pyridine should be stored in a cool, dry, and well-ventilated area, away from heat sources, ignition points, and direct sunlight. Keep the container tightly closed and protected from moisture. Store separately from strong oxidizing agents and acids. Use appropriate chemical-resistant containers and clearly label them. Regularly check for leaks or deterioration of storage containers. |
| Shelf Life | Shelf life of 2-Cyano,3-[2-(3'-Chlorophenyl)] ethyl pyridine is typically 2–3 years when stored in a cool, dry place. |
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Purity 99%: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high product yield and consistency. Melting Point 145°C: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with a melting point of 145°C is used in organic crystal engineering, where it facilitates precise compound formulation. Molecular Weight 252.7 g/mol: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with a molecular weight of 252.7 g/mol is used in medicinal chemistry research, where it provides accurate dosing in compound libraries. Particle Size <10 µm: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with particle size less than 10 µm is used in tablet formulation, where it improves uniformity and dissolution rate. Solubility in DMSO: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with high solubility in DMSO is used in high-throughput screening, where it enables reliable compound testing in biological assays. Stability at 60°C: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine stable at 60°C is used in accelerated stability studies, where it demonstrates robust chemical integrity under stress conditions. Residual Solvent <0.1%: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with residual solvent content below 0.1% is used in active pharmaceutical ingredient (API) manufacturing, where it meets stringent regulatory standards for product safety. Chromatographic Purity >98%: 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine with chromatographic purity above 98% is used in analytical research, where it ensures minimal impurity interference in validation studies. |
Competitive 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine prices that fit your budget—flexible terms and customized quotes for every order.
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Crafting each batch of 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine, often recognized by its shorthand as an intermediate in advanced chemical synthesis, we have learned what matters most for those who rely on the purity and reliability of specialty chemicals. The process starts well before a single reaction takes place. Careful attention to raw material sourcing, rigorous process parameter monitoring, and focused quality checks shape the product from concept to shipment.
Our teams face the challenge of reproducing the same tight tolerances, batch after batch. This compound, known for its role in further synthesis work—often in pharmaceutical or agrochemical sectors—demands control at every step. The pyridine core and the specific chlorophenyl group introduce complexity during synthesis and purification. By prioritizing analytical control and process automation, each lot achieves the uniform specification profile our clients seek. Whether it’s HPLC purity or precise melting point, these figures aren’t just numbers to us—they’re the stamp of our daily work.
Many users focus on the 99%+ purity standard, but other elements shape the compound’s utility. Trace impurities, such as unrelated isomers or residual solvents, directly influence how the product performs in downstream reactions. By controlling moisture content, optimizing crystallization steps, and validating every analytical method in-house, we maintain a product that chemists can integrate with confidence. We routinely see our clients’ processes improve in yield or selectivity when starting from a batch with these enhanced specifications.
This compound rarely serves as a finished product. It works as a critical building block in synthetic routes that yield high-value molecules, especially in regulated industries like pharmaceuticals or crop protection. The ethyl pyridine backbone forms a reliable anchor for further functionalization, and the 3'chlorophenyl group allows for targeted chemistry that leads to more active or selective end products. Many of our longtime partners run multistep reactions where the chain’s weakest link often shows up as variable results tied back to the purity or stability of starting materials. For us on the manufacturing floor, every gram needs to support the repeatability and performance our customers expect.
Customers often ask what sets this compound apart from other pyridine-based intermediates. Experience shows that small differences in aromatic substitution patterns make a significant impact on reactivity and compatibility. Substituting the 3'chlorophenyl unit, as this molecule features, often changes electronics and spatial orientation in coupling reactions. That means downstream steps—like amide formation or catalytic hydrogenation—can proceed under milder conditions or with improved selectivity compared to other, less customized pyridines. We track these real-world outcomes with our partners, continually exchanging feedback and refining our process.
From a manufacturing standpoint, other derivatives may behave differently during crystallization, leading to varying moisture uptake or filtration speeds. Our investment in process-scale knowledge lets us optimize for those factors, keeping both reaction efficiency and consistency top of mind. Providing a product that can be transferred seamlessly from drum to reactor, without time lost to troubleshooting solubility or stability, delivers concrete value.
Over years of producing 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine on scales large and small, certain truths have become clear to us. Sourcing the right grade of starting materials impacts not only quality but production yields. Careful management of reaction temperatures and isolation techniques builds in efficiency and reduces risk. We have adapted our plant to mitigate cross-contamination and handle thermal sensitivity, drawing on direct experience where a minor oversight led to days of rework. That’s the kind of hands-on learning that outside observers rarely see.
Our technicians often spot subtle trends before problems arise. For example, slight variations in solvent mixes from batch suppliers occasionally show up only after completing the synthetic route. By holding incoming ingredients to strict controls—not just specification sheets—we close the loop on variability. Years ago, a single out-of-spec batch led us to upgrade our drying protocols, ultimately benefiting every client’s downstream operations. The solutions stemmed from rooting out issues at the source, not just correcting symptoms.
Discussion doesn’t stop at shipment. Clients frequently reach out with technical queries about integrating 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine into proprietary synthetic routes. We share analytical data, solubility profiles, and even offer suggestions for handling in specific reactors. Several partners have built this intermediate into project-critical timelines, relying on flexible supply schedules and off-cycle deliveries. By keeping production plans aligned with their needs—even for custom lots or urgent resupply—we bridge the gap between the bench chemist and the production site.
As regulations shift—especially in markets where residual solvent restrictions tighten or new environmental controls emerge—our quality and technical teams stay on top of these changes. Sometimes, we modify purification steps to produce ultra-low solvent grades for especially demanding users. Each adaptation flows from a shared commitment to compound integrity and user safety.
Chemical manufacturing rarely forgives mistakes. Every batch of 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine comes with a full set of traceable data, built from raw material certificates down to in-process checks and final COAs. We track temperature logs, equipment cleaning protocols, and even environmental monitoring near critical process steps. These layers of traceability do more than satisfy regulators; they give our buyers a level of certainty when troubleshooting or process validation demands arise.
Retaining control over every step keeps us agile. If a partner faces a change in reaction conditions or needs a custom particle size, adjustments happen quickly, with clear documentation at each step. Both research-stage and manufacturing-scale customers have pointed to this flexibility as a deciding factor in continuing to work with us. As a producer, seeing this trust come from reliability in the real world brings pride and pushes us to raise the bar.
Handling chlorinated aromatic compounds and functionalized pyridines calls for vigilance on both environmental stewardship and operator safety. We invest in local scrubber systems, closed transfer processes, and dedicated waste streams, limiting exposure and safeguarding plant operators. We partner with environmental consultants to review effluent and emissions data, making sure each run meets or exceeds regulatory benchmarks. Regular training keeps our process engineers and technicians up to speed, adapting protocols as standards evolve.
Some customers operate in jurisdictions with stricter controls or export requirements. For those projects, our documentation and process transparency simplify import clearance and site audits. Experience has shown that proactive communication soothes concerns and opens more opportunities, both for us and the teams we serve.
The chemical landscape shifts as new synthetic demands emerge or regulations evolve. We track these changes by staying close to development partners and watching where the next bottleneck appears. So if a new project calls for a particular impurity profile or performance in a novel reaction, our technical team dives into process simulation and pilot batches, iterating until the product supports the client’s goal.
One example comes from recent years, when downstream users needed batches formulated for specialized coupling reactions. Standard material struggled with solubility in select solvents, leading us to revisit crystallization schedules and solvent exchanges. We now offer custom grades targeting faster dissolution, reflecting direct user feedback and hands-on optimization. This cycle of adaptation stands as proof of being directly in the world of making—and not just selling—chemicals.
Sourcing and logistics practices take on extra weight as buyers and end users scrutinize supply chains. We work directly with our own suppliers, auditing extraction, transport, and storage standards to keep the material chain transparent. By choosing regional raw material partners and supporting responsible disposal practices, we build resilience into the production network. If a sourcing challenge arises, transparent updates keep clients aware of timelines and batch release schedules, supporting anyone who has linked their own project timing to our delivery window.
Product stewardship also includes fair labor practices and safe working conditions, required by many end-user audits. We hold internal reviews on plant safety and cross-check storage conditions frequently. That level of vigilance protects both the quality of the compound and the teams producing it.
Keeping our facility running at high efficiency involves more than scheduled maintenance. Frequent data reviews reveal patterns—catching slow drifts in yield or quality before they affect a customer. Our analytical lab upkeep outpaces industry minimums. Instruments are recalibrated and validated ahead of schedule, preventing analytical drift and reinforcing user confidence.
Technological upgrades, such as advanced chromatography or better-controlled reactors, come directly from our team’s on-the-ground experience. Operators flag small pain points; chemists propose process tweaks. Management responds by approving targeted upgrades, supporting every improvement with practical investment. The ongoing result: more robust, predictable production and a tighter specification profile.
We know that each new request or technical challenge links back to someone’s real-world project—or even a pipeline-launching milestone. Fast turnaround, detailed technical support, and willingness to listen keep communication lines open. Our interactions have led to process innovations on the client side, yielding new process patents or enhanced efficiency.
Several clients have credited our rapid feedback cycles with helping them hit aggressive project timelines. In circumstances where application troubleshooting pointed back to trace-level byproducts, our technical group traced, tested, and adjust upstream processes to eliminate recurring issues. These direct interventions create a feedback loop—between the manufacturer who knows every nuance of the process and the user who faces a commercial deadline.
Knowing every vessel, pump, and pipeline that touched your batch builds a unique foundation of confidence. No reseller or trader can replicate the level of direct accountability that comes from running and refining a process on-site. Our commitment—backed by decades of combined plant floor knowledge—makes each order more than a transaction. It becomes a trusted supply relationship, built on technical competence and continuous engagement.
Each run of 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine carries the fingerprints of a team that cares about the outcome, for ourselves and those we serve. Instead of warehouse-to-warehouse movement, we maintain visibility from the raw material gate to the client’s receipt dock. The continuity of care shows in the chemistry, and it supports the scientists and engineers bringing new technologies, therapies, and products to life.
As manufacturers, our promise is technical. Every step in producing 2-Cyano,3-[2-(3'Chlorophenyl)] Ethyl Pyridine reflects a commitment to improvement, reliability, and partnership. Chemical production brings daily lessons, from optimizing yields to upgrading sustainability. Our product, shaped by these lessons, plays a role beyond the flask—becoming a catalyst for progress where the right building block meets practical expertise.
