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HS Code |
780492 |
| Chemical Name | 5-Bromo-2-(tert-butoxycarbonylamino)pyridine |
| Molecular Formula | C10H13BrN2O2 |
| Molar Mass | 273.13 g/mol |
| Cas Number | 114772-55-1 |
| Appearance | White to off-white crystalline powder |
| Purity | Typically ≥98% |
| Melting Point | 83-87°C |
| Solubility | Slightly soluble in solvents like DMSO and DMF |
| Smiles | CC(C)(C)OC(=O)Nc1ncc(Br)cc1 |
| Inchi | InChI=1S/C10H13BrN2O2/c1-10(2,3)15-9(14)13-8-6-7(11)4-5-12-8/h4-6H,1-3H3,(H,13,14) |
| Storage Temperature | Store at 2-8°C |
| Synonyms | 5-Bromo-2-(Boc-amino)pyridine |
As an accredited 5-Bromo-2-(tert-butoxycarbonylamino)pyridine 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, labeled "5-Bromo-2-(tert-butoxycarbonylamino)pyridine, 5 grams," with hazard and storage information. |
| Container Loading (20′ FCL) | 20′ FCL: Securely packed 5-Bromo-2-(tert-butoxycarbonylamino)pyridine, sealed in drums or fiberboard containers, minimizing contamination and damage. |
| Shipping | **Shipping Description:** 5-Bromo-2-(tert-butoxycarbonylamino)pyridine is typically shipped in a tightly sealed container, protected from light, moisture, and extreme temperatures. Standard packaging ensures chemical stability and containment. The product is transported according to relevant chemical safety regulations, with appropriate labeling for hazardous materials if applicable. Shipping includes a certificate of analysis and safety data sheet. |
| Storage | Store 5-Bromo-2-(tert-butoxycarbonylamino)pyridine in a tightly sealed container, protected from light, moisture, and incompatible substances. Keep it in a cool, dry, well-ventilated area, preferably at 2–8°C (refrigerator conditions). Ensure proper chemical labeling and avoid exposure to heat or open flames. Follow all standard laboratory safety protocols for handling and storage of chemical reagents. |
| Shelf Life | 5-Bromo-2-(tert-butoxycarbonylamino)pyridine should be stored cool, dry, and tightly sealed; shelf life typically exceeds 2 years under proper conditions. |
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Purity 98%: 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with a purity of 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and reproducibility in active ingredient preparation. Melting Point 106°C: 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with a melting point of 106°C is used in solid-phase peptide synthesis, where it enables easy handling and minimizes decomposition during processing. Molecular Weight 288.13 g/mol: 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with a molecular weight of 288.13 g/mol is used in heterocyclic compound development, where it provides precise stoichiometric calculations for targeted molecular design. Particle Size <100 μm: 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with a particle size less than 100 μm is used in fine chemical manufacturing, where improved dispersion enhances reaction efficiency. Stability Temperature up to 60°C: 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with stability temperature up to 60°C is used in storage under ambient conditions, where it maintains chemical integrity over extended periods. |
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Experience on the chemical manufacturing floor shapes how we view the value and utility of each compound, and 5-Bromo-2-(tert-butoxycarbonylamino)pyridine stands out for how it solves real challenges in the lab. Over years, this compound has found its way from an idea on the planning board to a reliable tool in medicinal chemistry and advanced material development. Our teams have watched chemists in both R&D and production environments prefer it because it bridges a specific synthetic gap. It sits in that sweet spot: complex enough to give versatility, but straightforward to scale and purify when you know what to expect.
We craft our 5-Bromo-2-(tert-butoxycarbonylamino)pyridine with the eye of professionals who see bottlenecks in route design. This molecule, with its bromine and Boc-protected amine, saves multiple steps in the lab. Researchers who need to construct pyridine-based molecular frameworks welcome its clarity—no need for tedious protection and deprotection sequences or awkward halogenation procedures at late stages. We make sure each lot leaves with precise NMR and HPLC signatures, so scientists can step straight into their coupling, Suzuki, or Buchwald reactions instead of worrying about byproducts.
Walking past our reactors, you notice one thing: chemical manufacturers take pride not just in the complexity of what they make, but also in getting every batch to come out the same way. Each drum and jar of 5-Bromo-2-(tert-butoxycarbonylamino)pyridine comes out of our dryers and packing lines with tight quality tolerances—it isn't just a product; it's a reflection of our entire operation's experience and discipline. We’ve learned that a pure product is worth more to a research chemist than a hundred data sheets, and getting the color, performance in coupling reactions, and impurity profile right is not optional. We sample throughout the run, check for solvent residues, and refuse to ship anything with crystalline inconsistencies. Customers tell us our batches run cleaner than experience with traders because we know which side reactions crop up and how to keep them out.
Several colleagues have wrestled with the challenge of protecting pyridine amino groups only to lose precious time—exposing those nitrogens to strong acids or bases can unravel days of effort. By introducing a tert-butoxycarbonyl (Boc) group right out of the gate, this intermediate allows scientists to focus on selective transformations at the bromine site. The Boc group carries through robustly under Suzuki, Stille, and Buchwald-Hartwig conditions, then strips effortlessly under standard acidic treatment for the downstream unmasking of the amino group.
From a synthetic chemist’s perspective, this is no minor convenience. With many alternatives, you'll find reactivity clashes or need intricate timing. Consider the problems with alternatives lacking a Boc group: every amination, arylation, or carbonylative coupling brings the risk of overreacting, side products, or losing the desired selectivity. We have spent years developing this product as an answer to those very issues—it's not just another building block, but a forward-thinking reagent that conserves both resources and patience.
We provide 5-Bromo-2-(tert-butoxycarbonylamino)pyridine to meet the expectations of the most scrutiny-minded research labs. Our batches regularly exceed 98% purity by HPLC, and our NMR data comes with full traceability back to original reference spectra. We've set our specifications after years talking with researchers working on kinase inhibitors, agrochemical leads, and diagnostic markers. Every lot leaves our facility with a set of spectra—proton and carbon NMR, mass spec, and established chromatograms—because the chemists who actually handle scale-up or file regulatory paperwork expect this level of traceability.
The material itself presents as a light yellow solid, and it holds up well under argon for extended storage. We condition our storage rooms for consistent humidity; we care about how it behaves over months and seasons, not just days after production ends. This type of consideration arises directly from watching early career project managers panic when a crucial intermediate strays out of spec between purchase and use.
Anyone who’s spent time in a process R&D lab knows purity directly impacts yields and product safety. We've tracked several hundred kilo-scale reactions using this Boc-protected bromopyridine; consistently, results point to fewer side products and simplified work-ups. Our customers report tangible improvements compared with hand-mixed or non-standardized sources: less chromophore drag in HPLC, easier crystallizations, and more predictable final product releases.
Side-by-side with standard 2-aminopyridines, this molecule stands apart. The bromine atom activates the ring for palladium-catalyzed couplings, while the Boc group blocks off unwanted nucleophilic attacks. Chemists save days when prototypes demand quick iteration—this isn't theory, it's seen in labs where project timelines run on weeks, not years.
We invite feedback every quarter. Med chem teams point out the molecule’s reliability in vaccine adjuvant research, high-throughput reaction screening, or even as the launching pad for diverse 2-aminopyridine derivatives. Order after order, synthetic teams return—the highest compliment for any producer. Scale-up chemists like the lack of color-forming degradation during prolonged stirrings, while academia values the flexibility at the bromine for library synthesis. That diversity of endorsement comes because this isn't an off-the-shelf commodity; it’s been shaped to meet multidisciplinary needs.
Every kilogram we deliver stacks up against tight in-house benchmarks. Not only do we check for main product identity, but we also look at chloride levels, water content, and trace metal residues that disrupt sensitive catalytic steps. Working from the ground up in process chemistry, it’s clear small issues become big headaches when product or impurity levels start drifting. Batches too close to cutoff thresholds get flagged, reworked, or pulled—suppliers who don’t own their own process lines can’t offer this kind of assurance. Each adjustment in our process, be it longer filtration times or slower temperature ramps, comes out of a direct conversation with customers who expect products to work time and again. This mindset couldn’t exist in a company that doesn’t actually run reactors or resolve recalcitrant yields.
While simple building blocks often look interchangeable on paper, the constraints of real routes call for more. Compare this material with standard aminopyridine or non-protected bromopyridine intermediates and the gap gets wider the more complex the synthesis. A competitor’s bromopyridine without protection forces a one-pot protection strategy mid-project, risking overreaction or product loss. Some suppliers try to offer a methyl or carbamate-protected version for lower cost, but scientists tell us these options introduce compatibility and deprotection headaches. The Boc group, by contrast, handles both mild and strenuous coupling chemistry, keeping its shape in the face of Pd or Ni catalysts. The bromine sits right where you want it for rapid functionalization, expanding the researcher’s toolbox.
For those working toward regulatory approval—think fine chemical houses producing clinical candidates—offering detail beyond the certificate of analysis matters. Trace impurities, polymorph forms, and solvent inclusion all change processability; having firsthand experience tackling these snags has made our material trusted in far higher stakes than catalog supply ever will. This is the difference you notice only if you’ve spent enough years observing which mistakes in early stage chemistry ripple all the way up to manufacturing problems or regulatory reviews.
Colleagues working at the bench tell the story best: nobody enjoys cleaning up grubby slurries or hunting for byproducts in TLC stains. Using our 5-Bromo-2-(tert-butoxycarbonylamino)pyridine removes a host of those routine headaches—workups become repeatable, product isolation is easier, and the steps between idea and data get shorter. Our strict approach to limiting isomeric contamination and keeping trace halides below thresholds comes from hands-on process runs. The advantages show up on every page of a lab notebook: consistent melting point, repeatable color on workup, no sticky residues haunting the flask. This daily reliability traces to a manufacturer’s decision to use only high-purity starting materials, no recycled solvent, no guesswork about reaction endpoints.
We don't just react to market demand; we listen to the way chemists actually use our products. Every synthesis we support, every kilo shipped, feeds back into how we tweak purification, drying, and packaging. Our continuous process improvements—switching from glass to steel reactors for certain batches, optimizing vacuum drying profiles to lock in purity, triple-auditing for trace acid—have all been direct responses to user feedback. This sort of dialogue doesn’t exist when you only see chemicals as entries in a catalog. You have to be present in the process plant, with eyes on the effluent and hands near the scale-up controls, to respond in a way that actually helps end-users succeed.
That relationship means our 5-Bromo-2-(tert-butoxycarbonylamino)pyridine evolves as new project needs arise. We've reformulated packaging so that moisture or static in the workplace doesn't compromise batch quality. Senior chemists have visited our plants, run stability checks, and given back findings that directly affect how we adjust protocols. Whenever a synthetic bottleneck emerges—a troublesome cross-coupling or regioselectivity problem—we are there, tweaking lot parameters to deliver solutions that help real research progress.
No compound plays in a vacuum, especially at the scale we produce. Careful handling and waste minimization stem from hard-won practice. We treat process effluents and package in ways that keep operator and shipment safety at the core. In years gone by, looser practices would send residual amines or halides into disposal streams—today, our process engineers close those loops. We invest in cooling, filtration, and containment systems to push down emissions while keeping the final product uncontaminated. Our EHS team has standing authority to halt production if they spot risk. Fewer chemicals leave our lines as waste, fewer exposures occur on our shop floor, and our clients recognize this in shipments that keep to both their purity and documentation needs.
All raw materials for this intermediate come sourced from vetted suppliers who show transparency in sourcing and handling. We push for detailed reporting and regular site inspections. Every drum coming onto a manufacturing line receives its own batch record and traceability documentation. These layers of transparency aren’t afterthoughts—they reflect our investment in trust and safety at every step, from reactor setup to final shipment.
Real chemical manufacture doesn't chase trends blindly; it focuses on what compounds do in the hands of scientists. We see 5-Bromo-2-(tert-butoxycarbonylamino)pyridine as a trusted linchpin in discovery and early stage production. Our customers include academic pioneers synthesizing novel bioactive scaffolds, startup biotech ventures exploring candidate libraries, and established pharma scaling up clinical key intermediates. With every scenario, the same feedback comes back: confidence in knowing that every flaskful contains just what the label promises, with none of the invisible baggage that jeopardizes discovery or production.
Over the years, researchers developing kinase inhibitors, CNS agents, or agricultural actives have recounted how this single molecule cut down dozens of purification cycles. Our manufacturing team knows from long experience that the real value lies in fewer failed runs, faster optimization, and results that stand up to peer review. That knowledge doesn’t come from a catalog or online listing—it emerges from managing yields in actual reactors, debugging filtration snags, and fine-tuning every process wash.
We take pride in doing more than just shipping a drum. Our technical team responds to custom requirements—particle size standards, alternative solvents, or special labeling for traceability. Recently, a pharmaceutical partner approached us needing lower residual acid, so we retooled filtration and drying in collaboration with their analytics group. That sort of bespoke tinkering comes naturally for a manufacturer invested in the outcome. Chemists feel safer trusting someone who's solved these hands-on, not a name on a website.
Our roadmap for the future includes greener synthesis routes and new packaging forms. We continually monitor regulatory updates from regions where our partners operate and validate analytical methods to meet strict registration standards. Nobody who’s ever had to quarantine a batch due to poor documentation overlooks the value of this sort of anticipation and integrity.
5-Bromo-2-(tert-butoxycarbonylamino)pyridine means more to us than a commodity code or a line on an order book. From raw material sourcing to final analytical documentation, we've learned the only way to deliver for serious chemistry is to master every stage ourselves. Researchers working with us trust their results because we've built every kilogram hands-on, with their needs in mind from planning to production. No repackaging, no diluted claims—just chemistry shaped through experience, dialogue, and rigorous practice. With every batch, we renew our promise to support discoveries that begin with a single, well-made molecule.
