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HS Code |
619450 |
| Chemical Name | 2-Furfurylthiopyridine |
| Molecular Formula | C10H9NOS |
| Molecular Weight | 191.25 g/mol |
| Appearance | Yellow to brown solid |
| Solubility | Soluble in organic solvents; insoluble in water |
| Cas Number | 73039-67-9 |
| Smiles | c1ccnc(c1)SCc2occc2 |
| Inchi | InChI=1S/C10H9NOS/c1-3-11-9-7-10(12-5-1)13-6-2-4-8-12/h1-7H,8H2 |
| Synonyms | 2-(Furfurylthio)pyridine |
| Storage Conditions | Store in a cool, dry place, protected from light |
As an accredited 2-Furfurylthiopyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 2-Furfurylthiopyridine is packaged in a 25-gram amber glass bottle with a secure white screw cap and tamper-evident seal. |
| Container Loading (20′ FCL) | 20′ FCL container loading for 2-Furfurylthiopyridine ensures secure, moisture-free packaging, maximizing shipping efficiency and safe transport of bulk chemical quantities. |
| Shipping | 2-Furfurylthiopyridine is shipped in tightly sealed containers to prevent moisture and air exposure. It is packed according to hazardous material guidelines, labeled appropriately, and cushioned to avoid breakage. The chemical is transported at ambient temperature, with all safety documentation included to ensure secure and compliant delivery. |
| Storage | Store 2-Furfurylthiopyridine in a cool, dry, and well-ventilated area, away from sources of ignition and incompatible materials such as strong oxidizers or acids. Keep the container tightly closed and protected from moisture. Use appropriate chemical storage containers, labeled clearly, and avoid exposure to direct sunlight. Follow standard safety protocols for handling organosulfur and heterocyclic compounds. |
| Shelf Life | The shelf life of 2-Furfurylthiopyridine is typically 2-3 years when stored in a cool, dry, and airtight container. |
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Purity 98%: 2-Furfurylthiopyridine with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Melting Point 76°C: 2-Furfurylthiopyridine with a melting point of 76°C is used in organic electronics development, where its thermal stability improves device durability. Molecular Weight 193.26 g/mol: 2-Furfurylthiopyridine at a molecular weight of 193.26 g/mol is used in agrochemical R&D, where predictable reactivity enhances synthetic control. Solubility in DMSO: 2-Furfurylthiopyridine with high solubility in DMSO is used in medicinal chemistry screenings, where it facilitates compound delivery and assay accuracy. Stability Temperature up to 120°C: 2-Furfurylthiopyridine with stability up to 120°C is used in catalyst formulation, where it maintains catalytic efficiency under reaction conditions. Low Water Content (<0.5%): 2-Furfurylthiopyridine with low water content is used in anhydrous polymer formulations, where it prevents unwanted hydrolysis reactions. Particle Size <10 µm: 2-Furfurylthiopyridine with particle size less than 10 µm is used in coating applications, where it achieves superior dispersion and surface finish. Assay ≥99%: 2-Furfurylthiopyridine with an assay of ≥99% is used in high-precision analytical standards, where accuracy and reliability are critical. |
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Finding the right chemical product often feels like searching through an endless sea of specifications and jargon. After years spent working in academic research labs and collaborating with process engineers, I’ve come to appreciate well-made, thoughtfully designed chemicals that just work, without the drama. 2-Furfurylthiopyridine—model designation FFSP-2024—brings something unique to the table for any chemist, formulator, or process manager searching for dependable results.
At its core, the core structure of 2-Furfurylthiopyridine combines a pyridine ring joined with a furfurylthio group on the second carbon. This arrangement gives the compound its high selectivity and reliable reactivity. Purity levels typically surpass 98%, and the product ships as a pale yellow crystalline solid, which makes handling safe and convenient in the lab or on a production scale.
Every scientist wants repeatable results. The standard batch comes with NMR and HPLC data, confirming its identity and purity—a level of transparency that makes troubleshooting downstream work easier. Moisture and trace-solvent content consistently fall below detectable limits, a detail worth its weight in gold if you’ve ever watched a minor impurity throw off selectivity in a multi-step synthesis.
Users in both academic and industrial chemistry recognize 2-Furfurylthiopyridine for more than just its structure. In drug discovery labs, it’s found a home as a versatile intermediate for the construction of sulfur-containing heterocycles, which show up time and time again in biologically active compounds. Its furfuryl group opens up access to Diels-Alder reactions and further modifications, so medicinal chemists see real benefits in lead diversification.
Outside pharmaceuticals, process engineers value 2-Furfurylthiopyridine as a synthon for developing high-value thioether ligands. Many niche catalysts require these backbones, and the stability of this compound means fewer headaches over oxidation during storage or use. Anyone who has slogged through the pitfalls of thioether oxidation knows how much time this can save.
The market offers no shortage of pyridine derivatives—each touting unique features and benefits. After working with a fair share, I’ve noticed what separates 2-Furfurylthiopyridine from the pack. For one, its synthesis leaves far fewer byproducts, which cuts down on purification time. I remember more than a few late nights wrestling columns, wishing for a cleaner end product. Here, the process feels refreshingly straightforward.
Another edge comes from stability. Several thiopyridines degrade noticeably when exposed to air or moisture, throwing off stoichiometry and creating variability in downstream results. 2-Furfurylthiopyridine displays robust shelf stability in its crystalline form, tolerating standard lab conditions without the need for special precautions. This might sound routine, but for anyone storing multiple compounds side by side, it means fewer surprises when returning to the bench after weeks or months.
Most alternatives on the shelf either lack the same grip on purity or end up being too expensive for routine use. Here, the manufacturer has struck a balance, supplying high-grade material at a fair price—a detail that matters for academic groups running on tight budgets, as well as process chemists justifying costs at scale.
Nobody enjoys troubleshooting reactions gone awry due to contaminated intermediates or unpredictable impurities. With 2-Furfurylthiopyridine, I’ve seen smoother scale-ups, cleaner reactions, and better reproducibility across different lab setups. The consistency in melting point and reactivity parameters shows that quality control isn’t just a buzzword for this product—they back it up with real data.
Ease of measuring and handling also makes a difference, especially for technicians newer to fine chemical work. The powdered crystalline nature of the compound means it dispenses easily, clumps less, and dissolves quickly in typical organic solvents. Less time wrestling with solubility means more time getting results that matter.
Increasingly, regulations and in-house safety teams demand materials that not only perform but align with responsible sourcing and handling practices. While 2-Furfurylthiopyridine is not a green reagent by nature, suppliers have improved their process to minimize waste and hazardous byproducts. I’ve watched the shift over recent years from small-batch, niche suppliers to more responsible, transparent providers. Having documentation readily available, from material origin to analytical verification, matters both for sustainability reporting and meeting institutional standards.
Compared to similar compounds, the reduced need for aggressive purification and post-synthesis clean-up also means less laboratory waste and fewer headaches during disposal. For teams striving to improve their environmental footprint, these incremental gains can add up over a year or a multi-step campaign. Small choices in intermediate selection ripple out into cost, safety, and environmental impact.
There’s no ignoring costs in modern chemistry. Budget constraints affect both research planning and commercial production. The challenge lies in balancing material cost against reliability and downstream performance. With 2-Furfurylthiopyridine, the cost aligns well with the level of quality delivered. Teams faced with repeated failed reactions, or forced to repurify intermediates, eventually find that bargain-bin chemicals aren’t really bargains at all.
Accessibility also plays a significant role. Recalling times waiting weeks for rare intermediates to clear customs, it’s refreshing to see improved global distribution for products like FFSP-2024. Steady inventory and prompt shipping reduce downtime, which matters for fast-paced environments and deadline-driven projects. As more suppliers come online and adopt real-time inventory management, users across the world benefit from better access and fewer logistical hiccups.
As science moves deeper into complex molecular architectures and tailored functional molecules, demand grows for intermediates that perform consistently and open up new chemistry space. 2-Furfurylthiopyridine serves as a bridge for many evolving applications, from specialty polymer synthesis to next-generation bioactive molecules. Experienced chemists gravitate toward intermediates that save time and reduce trial-and-error, and in this aspect, 2-Furfurylthiopyridine shines.
Heteroaromatic chemistry has always hinged on reliable building blocks. In fields like medicinal or materials chemistry, even minor contamination or unpredictable degradation can stall months of benchwork. Products like this, with strong analytical support and a reliable supply chain, allow researchers to focus on discovery rather than re-verifying their feedstocks. Time regained from fewer surprises at the bench turns into genuine scientific progress, not just paperwork.
I’ve seen firsthand how user feedback can shape chemical product lines. Early adopters of 2-Furfurylthiopyridine flagged purity and handling as top priorities. Manufacturers listened, refining their process, often based on a feedback loop between bench chemists and production teams. This back-and-forth, sometimes overlooked in the age of online catalogues, keeps quality moving forward.
The result: a product that supports the real-world pace and unpredictability of chemistry research. Whether used in a high-throughput synthesis project or an industrial pilot plant, users spend less time wrangling with the basic building blocks and more time moving compounds through the pipeline. Looking back, many lab projects would have moved faster with fewer interruptions if intermediates like this had set the standard.
Confidence in chemical sourcing comes down to documentation and traceability. I’ve often fielded questions from auditors about the identity and purity of intermediates, particularly during grant-supported projects or regulated synthesis campaigns. With 2-Furfurylthiopyridine, clear batch certifications, analytical spectra, and even full synthetic pathways are typically available upon request. This level of visibility allows researchers, production teams, and even regulatory reviewers to move forward without red tape.
Traceability also supports troubleshooting. I remember one case where a reaction failed unexpectedly, only to be resolved by backtracking through certificate-of-analysis data. Knowing each batch met common benchmarks cut cycle time in half and allowed the team to spot the real issue—in this case, a minor adjustment in workup solvents. Fewer surprises at this critical stage free up energy for meaningful investigation, not paperwork.
Innovation never follows a straight line, and chemists need tools that stand up to pivots and creative ideas. 2-Furfurylthiopyridine has earned its place in the modern lab for its role in enabling new chemistry. Whether developing late-stage functionalizations, exploring new metal-catalyzed couplings, or broadening chemical space for screening programs, reliable reagents accelerate the learning curve and open new avenues.
The ability to trust both the purity and the reproducibility of every batch means researchers take bolder leaps in synthetic design. As a result, teams discover new properties in materials, invent novel pharmaceuticals, or design advanced sensors with features tuned at the molecular level. There’s a future-facing aspect to investing in products like this—it’s an investment in research momentum.
Science happens in teams. The best results come from cross-discipline collaborations—organic chemists partnering with biologists, materials scientists teaming up with process engineers. Consistent, well-characterized reagents act like a common language across departments. In global research programs, shared understanding helps teams in Europe, Asia, and North America work in step, confident that their starting materials behave as expected.
I’ve managed multi-site collaborations where varying reagent quality once generated headaches and confusion. Adopting standards built around dependable intermediates, including 2-Furfurylthiopyridine, allowed us to shift focus from managing differences to driving discovery. That’s the kind of progress that supports big steps forward, not just incremental change.
Scaling chemistry from bench to pilot plant never follows a straight line. I’ve watched smooth laboratory procedures turn unpredictable when transitioned to larger vessels, often because minor impurities or subtle stability differences multiply on scale-up. Reliable intermediates, with predictable behavior across different conditions, offer protection against these frustrating setbacks.
2-Furfurylthiopyridine delivers confidence at this key stage. Whether used in multi-kilogram runs for industrial ligand synthesis or batch production for advanced pharmaceuticals, its robust profile translates directly to fewer surprises in plant settings. Stability during storage, ease of dispensing, and tight purity make regulatory filings and downstream applications much easier to manage.
After years in research and production environments, certain lessons ring true across disciplines. Take pride in simplicity—solutions that work, free from distractions. Prioritize transparency—easy access to data and specifications gives everyone on the project the same starting line. Embrace continuous improvement—seek out tools and materials that adapt to evolving needs and feedback.
2-Furfurylthiopyridine embodies these guiding principles. It does not promise to transform the industry overnight, but delivers steady, well-documented performance. By lowering the routine friction of research, it helps teams focus on genuinely creative work. As industry and academia pursue new discoveries, the value of products that offer reliability, supported by open data and responsive manufacturing, cannot be overstated.
Even with a high-performing product, challenges remain. Fragmented supply chains, evolving regulatory standards, and increasing scrutiny on chemical safety mean that the landscape must keep shifting. Chemical suppliers supporting open dialogue with end-users and investing in more sustainable, lower-impact production methods stand to make the biggest impact.
Researchers can form partnerships with producers to guide successive product refinements—continuous monitoring of user feedback, combined with robust post-market surveillance, leads to steady progress. Greater support for recycling or reclaiming byproducts, and open-access knowledge sharing about best uses and troubleshooting experience, will increase the chemist’s ability to develop safer, cleaner, and more innovative processes.
In an era defined by rapid scientific advancement, the tools we choose shape how fast—and how safely—we reach the next milestone. 2-Furfurylthiopyridine, through a combination of consistent quality, transparent sourcing, and an ongoing commitment to user needs, empowers researchers, engineers, and product developers to move from concept to result with fewer obstacles in the way.
Every day at the lab bench or in a pilot facility is a reminder that incremental differences—in purity, data transparency, and supplier reliability—add up to big differences in outcomes. The time saved managing predictable intermediates, and the trust built through open documentation and supplier partnership, create space for the creativity and rigor that drive science forward.
In practice, 2-Furfurylthiopyridine is more than just another chemical in the catalogue—it’s a reliable partner for those striving to solve real problems and deliver real progress, both at the frontline of discovery and in the practical trenches of production.
