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HS Code |
689017 |
| Product Name | 3-ACETYL-6-BROMOPYRIDINE |
| Cas Number | 155141-47-2 |
| Molecular Formula | C7H6BrNO |
| Molecular Weight | 200.03 |
| Appearance | White to off-white solid |
| Melting Point | 66-70°C |
| Purity | Typically ≥97% |
| Solubility | Soluble in organic solvents (e.g., DMSO, ethanol) |
| Smiles | CC(=O)C1=CN=C(C=C1)Br |
| Inchi | InChI=1S/C7H6BrNO/c1-5(10)6-2-3-7(8)9-4-6/h2-4H,1H3 |
| Storage Conditions | Store at 2-8°C, keep container tightly closed |
| Synonyms | 6-Bromo-3-acetylpyridine |
As an accredited 3-ACETYL-6-BROMOPYRIDINE factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 3-Acetyl-6-bromopyridine, 5g, sealed in an amber glass bottle with tamper-evident cap, labeled with hazard warnings. |
| Container Loading (20′ FCL) | Container loading (20′ FCL) for 3-ACETYL-6-BROMOPYRIDINE: Securely packed in sealed drums or cartons, ensuring safe transit and compliance with chemical regulations. |
| Shipping | **Shipping Description for 3-Acetyl-6-bromopyridine:** This chemical is shipped in high-integrity, sealed containers to prevent contamination and degradation. Packages comply with all relevant chemical transport regulations, including labeling and documentation. Handle with care and keep away from heat or open flames. Ensure prompt and secure delivery under controlled, ambient temperature conditions. |
| Storage | 3-Acetyl-6-bromopyridine should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible materials such as strong oxidizing agents. Keep the container tightly closed when not in use. Store at room temperature and avoid exposure to moisture. Ensure proper labeling and restrict access to authorized personnel only. |
| Shelf Life | 3-ACETYL-6-BROMOPYRIDINE typically has a shelf life of 2-3 years when stored in a cool, dry place, protected from light. |
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Purity 98%: 3-ACETYL-6-BROMOPYRIDINE with a purity of 98% is used in pharmaceutical intermediate synthesis, where it ensures high-yield reaction efficiency. Melting Point 86-90°C: 3-ACETYL-6-BROMOPYRIDINE with a melting point of 86-90°C is used in medicinal chemistry programs, where it provides predictable solid-state behavior for formulation. Molecular Weight 202.03 g/mol: 3-ACETYL-6-BROMOPYRIDINE having a molecular weight of 202.03 g/mol is used in heterocyclic compound building blocks, where it allows accurate stoichiometric calculations in synthesis. Stability Temperature up to 120°C: 3-ACETYL-6-BROMOPYRIDINE stable up to 120°C is used in high-temperature coupling reactions, where it maintains chemical integrity throughout the process. Particle Size <50 micron: 3-ACETYL-6-BROMOPYRIDINE with particle size below 50 micron is used in fine chemical manufacturing, where it ensures uniform dissolution and increased reaction rates. Solubility in DMSO: 3-ACETYL-6-BROMOPYRIDINE showing high solubility in DMSO is used in solution-phase drug discovery assays, where it enables consistent concentration-dependent testing. Assay by HPLC ≥98%: 3-ACETYL-6-BROMOPYRIDINE assayed by HPLC at ≥98% is used in analytical reference standards, where it delivers reliable quantification in quality control processes. |
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Stepping into any well-equipped research lab, you’ll find researchers chasing new solutions in pharmaceuticals, agrochemicals, and materials science. If you’ve ever wondered what sits behind so many innovations, you’d notice essential building blocks like 3-Acetyl-6-Bromopyridine shaping breakthroughs. While the name might sound like something from a graduate chemistry exam, this pyridine-based compound has been reshaping the way labs approach synthesis and design.
Studying chemistry, you learn early on that not all molecular tweaks deliver equal benefits. A bromine at the right spot turns a modest pyridine ring into a critical jumping-off point for further chemical creativity. A familiar friend to synthetic chemists, 3-Acetyl-6-Bromopyridine allows smarter, cleaner steps when crafting advanced molecules. In the push for efficient routes and fewer byproducts, every little advantage counts.
Ask anyone pulling late nights in a synthesis lab—every atom makes a difference. 3-Acetyl-6-Bromopyridine delivers a rare combination: a bromine atom at the sixth position of the pyridine ring and an acetyl group at the third. This precise arrangement sets it apart. It’s more than splitting hairs; this pattern opens doors for specialized reactions, including Suzuki and Buchwald-Hartwig couplings. For those who’ve hunted for reliable intermediates, having a ready-made brominated and acetylated pyridine saves huge stretches of bench time.
People outside chemical circles might not see why these details matter. In drug discovery, introducing diversity early in synthesis leads to better candidates and fewer dead ends. This product is tailored for researchers aiming to attach complex side chains, modify electronic properties, or explore new signaling agents. In my experience, the more reliable the starting material, the fewer headaches down the line. Clean, well-characterized intermediates mean trust in your data and fewer “back to square one” moments.
Some might ask, why not just use a generic bromopyridine? Here’s the catch. Throwing on an acetyl group at the third position isn't a minor adjustment. It tunes the electronic landscape of the ring. During my own work synthesizing analogs, starting with a properly substituted ring meant fewer unwanted side reactions, higher yields, and a smoother purification process. Put simply, 3-Acetyl-6-Bromopyridine takes care of a key piece of the puzzle right out of the bottle.
Compared to more basic 6-bromopyridines or acetylated rings without bromine, this compound plays well in both nucleophilic and electrophilic aromatic substitutions. Its clean melting point and high chemical purity—often above 98% in the best batches—ensure users aren't fighting contamination or struggling with off-target results. The field recognizes it for enabling more reliable routes, an edge when racing to patent new drug candidates or novel materials. For anyone who’s had a reaction derailed by impurities, the time saved through cleaner intermediates quickly adds up.
To see 3-Acetyl-6-Bromopyridine in action, you only need to check patent filings in pharma. It often steps in as a go-to intermediate for building kinase inhibitors, antiviral scaffolds, and agrochemical prototypes. A medicinal chemist’s job rarely follows a straight line; every week might call for new analogs. With this compound on hand, moving from a bromine substitution to further functionalization—through Suzuki couplings with aryl boronic acids, for example—turns into a straightforward process.
Beyond the bench, manufacturers lean on the consistency and shelf stability of this compound. Small sample vials look unimposing, but the compound inside gets shipped globally for small-molecule screens and academic research. It survives student hands and seasoned industrial chemists the same way: plenty of batch documentation, trusted spectral characterization, and well-controlled packaging.
Of course, the path isn’t all smooth. Preparing these specialized pyridine derivatives requires careful attention to temperature, solvent, and reagent choice. Years back, when working on similar halogenated pyridines, the exothermic swings posed safety risks. Solving for scale without risking runaway reactions demands process safety expertise. Inconsistent suppliers in the early days meant months lost verifying purity or troubleshooting mysterious failures, a frustration any researcher will recognize.
These days, increased demand from pharmaceutical and agricultural companies pushes manufacturers to boost production without cutting corners on quality. It’s become clear: anyone buying intermediates expects a full suite of documentation, including NMR, GC, and HPLC analyses. My own ordering experience taught me to check COAs with a critical eye. Quality lapses might not rear their head until downstream steps, wasting time and budget. Turns out, a small investment in verified quality pays off for high-stakes research or manufacturing.
The bittersweet truth is that making 3-Acetyl-6-Bromopyridine reliably isn't as easy as it seems on paper. Sourcing high-purity starting materials and locked-down process controls matter at every level. Some smaller suppliers have managed to carve out a niche by scaling with flexibility, offering researchers sample vials as well as multi-kilo shipments. Larger firms handle bulk orders but rarely tailor their approach for experimental needs. My own preference leans toward vendors who understand the shifting timelines and demands of serious research.
Offering technical support, sharing spectral data, and keeping clear records aren’t just nice-to-haves. They’re expectations shaped by years of collective experience in academia and industry. Tighter regulations and green chemistry goals raise the bar higher each year, especially as downstream partners require human- and environment-friendly processes. Manufacturers who step up, documenting every aspect of handling and offering recycling programs for solvent waste, actually help researchers move quickly from lab to pilot scale.
Environmental pressures push the fine chemicals industry to rethink legacy processes. 3-Acetyl-6-Bromopyridine isn’t immune to scrutiny. Brominated compounds, in particular, require respectful handling to avoid waste issues and off-target exposure. Most labs I’ve been around take this seriously, setting up robust venting and handling systems. At scale, the compound travels with proper labeling and all regulatory paperwork.
Anyone ordering from reputable suppliers looks for transparent safety data, not just a certificate of analysis. Safe handling, secure packaging, and clear hazard communication back every shipment. Beyond the right gloves and fume hoods, ongoing training and regular audits help keep the focus sharp. When everyone along the supply chain puts health, safety, and compliance first, projects run smoother and results hold up under scrutiny. Genuine commitment surfaces in how complaints get resolved and how improved labeling or shipping protocols roll out without fanfare.
Users of 3-Acetyl-6-Bromopyridine don’t just follow old recipes. Recent research trends encourage more sustainable chemistry, swapping in gentler solvents or exploring biocatalytic transformations. I’ve worked alongside colleagues exploring metal-catalyzed couplings that drastically reduce solvent waste. Each innovation builds on feedback from pigment chemists, pharma researchers, and students pushing projects forward. Manufacturers who listen to these needs—responding with packaging variations or expedited supply for urgent projects—find strong supporters in the research community.
Collaborations between academic labs and commercial suppliers often drive improvements in stability, purity, and ease of use. Without these quiet partnerships, many new drug scaffolds would take much longer to reach trial. Product managers frequent conferences, updating users on tweaks and learning about practical bottlenecks first-hand. This steady feedback cycle helps evolve what might look like a standard molecular intermediate into a more robust, customizable supplier-customer relationship.
Some labs still try classic bromopyridines or mixed-position acetyl derivatives, hoping for cheaper or simpler routes. In my experience, upfront savings fade if product impurity derails sensitive steps later. Tighter tolerance on starting material saves plenty over batches wasted to rework or salvage. There’s reassurance in not only receiving a compound that lines up spectroscopically but one that behaves predictably across multiple scales.
Compared to adjacent products in the catalog, 3-Acetyl-6-Bromopyridine serves as a well-calibrated base for modern synthetic methods. Chemists value the extra accuracy during multistep synthesis campaigns, where losing a round to unexpected byproducts or low yields can cut months off a program’s momentum. Its unique arrangement of acetyl and bromine substituents boosts both selectivity and flexibility for building new heterocyclic frameworks. Combine this with strong supply chain transparency and support, and it becomes clear why more researchers lean on this specific intermediate.
As chemical pipelines get greener and more regulated, compounds like 3-Acetyl-6-Bromopyridine will see further tweaks in how they’re made, stored, and delivered. Rising demand encourages tweaks to process efficiency and continues to shift attention toward cleaner, less wasteful synthetic steps. Over the years, I’ve seen suppliers begin adopting more supplier audits, investing in digital tracking, and opening direct lines of communication with end-users struggling to modify procedures for better yields or compliance.
There’s also a push toward modular packaging—from gram-scale research vials to larger kilogram drums for commercial projects. Universities and start-ups often need agility, hoping to avoid the red tape of bulk ordering and long lead times. Responsive supply matters. In situations where a single bottlenecked intermediate can hold back a full program, real-time tracking and digital ordering systems bring helpful transparency. Chemists appreciate knowing exactly when they can expect delivery, avoiding project stalls while waiting on customs or lost shipments.
Chemical research isn’t just about molecules. Every bottle or drum of 3-Acetyl-6-Bromopyridine interacts with people: lab managers, purchasing teams, safety officers, technicians, and researchers. Whenever I’ve asked for product support or clarification, the difference between consistent suppliers and faceless commodity sellers becomes clear. Reliable partners answer technical questions, share up-to-date data, and help troubleshoot issues—especially when timelines are tight.
This human touch, combined with a rigorous approach to product quality, helps stabilize projects and allows researchers at all levels to focus on creating value. Close attention to shared experience, quick response to feedback, and continuous improvement drive both incremental and transformative gains. As newer research methods emerge, whether through automation or advanced informatics, these qualities keep practical chemistry on solid ground.
Nobody has all the answers yet. Better documentation helps researchers repeat success and avoid accident-prone steps. Users seek packaging tailored to their realities—resealable vials, tamper-evident seals, or even pre-weighed units for rapid deployment. Improved shelf-life through better moisture control, enhanced traceability, and up-to-date regulatory compliance also top priority lists. Every step toward reducing handling risk, shipping delays, or data gaps adds real value—not just to bottom lines, but to research milestones met on schedule.
Companies tapping field-user feedback stay ahead. I’ve seen improvements roll out after suggestions from bench chemists, not only management or regulatory teams. Robust tracking and rapid response to recalls or out-of-specification reports reinforce trust through action, not just advertising. As more buyers and users raise expectations for sustainability, health protection, and transparency, the future likely belongs to those who match high-quality chemical supply with a commitment to service and informed improvement.
3-Acetyl-6-Bromopyridine no longer sits in the background of synthetic routes—it shapes how researchers design new molecules, speed up lead optimization, and build out pipeline diversity. Every milestone in drug or agrochemical synthesis rests not just on innovative thinking but on steady access to trusted materials. High-purity intermediates, informed customer service, and robust supply chains work together to help teams hit targets and deliver results that matter.
From teaching moments at the bench to high-stakes campaigns in the pharmaceutical industry, using a well-characterized product minimizes surprises and redirects effort toward what counts: genuine research progress. The more accessible and responsive these suppliers become, the more likely innovation will keep pace with society’s rising needs for effective medicines, sustainable agriculture, and advanced materials.
As the chemical research landscape grows more complex, the right intermediates—chosen for their performance, purity, and support—prove themselves in day-to-day lab work. In a world where every reaction step matters, where the push for results meets increasing regulation and scrutiny, 3-Acetyl-6-Bromopyridine stands out not as just another entry in a catalog, but as a trusted tool for building the next generation of scientific discovery.
