|
HS Code |
300806 |
| Product Name | 2-Hydrazino-5-Bromopyridine |
| Cas Number | 140173-85-5 |
| Molecular Formula | C5H6BrN3 |
| Molecular Weight | 188.03 g/mol |
| Appearance | Off-white to pale yellow powder |
| Melting Point | 163-167°C |
| Purity | Typically ≥ 98% |
| Solubility | Soluble in DMSO, slightly soluble in water |
| Synonyms | 5-Bromo-2-pyridylhydrazine |
| Storage Conditions | Store at 2-8°C, protected from light and moisture |
| Iupac Name | 5-bromo-2-hydrazinylpyridine |
| Smiles | NNc1ccc(Br)nc1 |
| Inchi | InChI=1S/C5H6BrN3/c6-4-1-2-5(9-7)8-3-4/h1-3H,7H2,(H,8,9) |
As an accredited 2-Hydrazino-5-Bromopyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 10-gram 2-Hydrazino-5-Bromopyridine is supplied in a sealed amber glass bottle with hazard labeling and batch information. |
| Container Loading (20′ FCL) | 20′ FCL container for 2-Hydrazino-5-Bromopyridine: Securely packed in sealed drums, moisture-protected, compliant with hazardous chemical shipping regulations. |
| Shipping | 2-Hydrazino-5-Bromopyridine is shipped in tightly sealed containers to prevent moisture and contamination. It is packaged according to hazardous material regulations and may require temperature control. Proper labeling and documentation accompany the shipment to ensure safety and regulatory compliance during transit. Handle with care, avoiding exposure to heat and direct sunlight. |
| Storage | 2-Hydrazino-5-bromopyridine should be stored in a tightly sealed container, protected from light and moisture. Keep it in a cool, dry, well-ventilated area, away from incompatible substances such as strong oxidizers. Store at room temperature or as specified by the manufacturer. Follow standard chemical storage practices, ensuring proper labeling and restricted access to authorized personnel only. |
| Shelf Life | 2-Hydrazino-5-Bromopyridine should be stored in a cool, dry place; shelf life is typically 2 years under proper conditions. |
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Purity 98%: 2-Hydrazino-5-Bromopyridine with a purity of 98% is used in pharmaceutical intermediate synthesis, where high chemical purity ensures minimal side reactions and consistent yield. Melting Point 155-158°C: 2-Hydrazino-5-Bromopyridine with a melting point of 155-158°C is used in solid-phase organic synthesis, where thermal stability supports efficient compound formation. Molecular Weight 204.02 g/mol: 2-Hydrazino-5-Bromopyridine with a molecular weight of 204.02 g/mol is used in heterocyclic compound development, where precise stoichiometry facilitates accurate formulation. Stability Temperature up to 80°C: 2-Hydrazino-5-Bromopyridine with stability up to 80°C is used in high-throughput chemical screening, where temperature resilience guarantees reliable assay performance. Particle Size <20 µm: 2-Hydrazino-5-Bromopyridine with particle size less than 20 µm is used in catalyst research, where fine particles enhance reaction surface area and catalytic efficiency. Assay ≥98% (HPLC): 2-Hydrazino-5-Bromopyridine with assay ≥98% (HPLC) is used in agrochemical active ingredient synthesis, where high assay purity ensures reproducibility of active compound formation. |
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Many scientists know the frustration of searching for a reliable intermediate—one pure enough for publication, yet versatile enough for complex syntheses. That’s exactly where 2-Hydrazino-5-Bromopyridine (also known by its chemical shorthand, C5H5BrN4) comes into play. With a bromine atom positioned confidently at the 5-position and a hydrazino group at the 2-position of the pyridine ring, this molecule brings a distinct chemical behavior that opens doors in numerous chemical industries.
What makes this compound stand out is its clear purpose for those working in pharmaceutical expansion or fine-chemical innovation. Most intermediates serve primarily as chemical stepping stones, but the bromine and hydrazino combination at strategic positions on the pyridine ring offer a starting point for a cascade of inventive transformations. As a chemist, I know firsthand how a well-chosen building block can set the tone for an entire project—eliminating tedious purification steps, preventing side reactions, and boosting confidence in the results. Quality building blocks like this have a way of showing up in successful patents and breakthroughs.
Lab projects don’t wait around for impure intermediates to be cleaned up, so purity counts for a lot. 2-Hydrazino-5-Bromopyridine usually arrives as a solid—fine, pale, and easy to handle. The material packs a molecular weight of about 201.03 g/mol, and its true worth shows up in its melting point: stable enough to make weighing and transfer painless, and resistant to air and moisture exposure under typical lab conditions. For large-scale users, the compound’s consistent melting profile signals quality control that holds up over time.
Experienced chemists pay close attention to elemental analysis and NMR data. A quick check confirms that the hydrazine and bromine atoms are exactly where they belong. HPLC analysis backs expectation with a clean trace—and that’s exactly what’s needed for tight synthetic cycles or regulatory filing. Those running medicinal chemistry programs trust in these consistent numbers; getting reproducible results means fewer setbacks, less wasted starting material, and savings on expensive purification steps.
Synthetic routes for pharmaceuticals, agrochemicals, and material science often call for a reliable, functionalized pyridine. That’s where 2-Hydrazino-5-Bromopyridine gets a chance to shine. Instead of settling for generic starting materials, chemists turn to this molecule for its ability to unlock targeted transformations. Its hydrazino group brings in nucleophilic power for crafting new bonds, and the bromine atom opens another path for cross-coupling reactions—making Suzuki, Heck, or Buchwald-Hartwig couplings easier to achieve.
From my lab bench, I’ve watched projects progress faster thanks to stable intermediates like this. A friend of mine working in oncology research once remarked that switching to a high-grade batch of 2-Hydrazino-5-Bromopyridine cut their cycle time nearly in half; no unexplained byproducts, crisp NMR, batch after batch. In exploratory synthesis, the value is more than theoretical. Batches with uncertain quality often force researchers to rerun reactions or invest in tedious purification, pushing timelines back. Using a secure foundation like this keeps momentum strong and teams focused on creative problem-solving.
Chemists in the dye and pigment industries also put this compound to work. Derivatization opens the door to new colors, improved fastness, and enhanced binding. The molecule’s dual functionality invites innovation in ligand design and other specialized applications. Academic researchers have tapped similar compounds for sensor development, leveraging the molecule’s distinctive reactivity to anchor indicator groups or build selective probes.
Not all pyridine intermediates offer the same slate of options as this one. Take a standard mono-substituted pyridine, for example—reactive, but often limited to just one mode of derivatization. With a bromine at the 5-position, 2-Hydrazino-5-Bromopyridine stands ready for palladium-catalyzed cross-couplings, creating access to complex heterocycles or fine-tuning electronic effects across a molecule. The hydrazino handle, meanwhile, is much more than an ornament. It’s a powerful tool for condensation, cyclization, and elaborate functionalization, breaking through the limits seen in far simpler molecules.
The combination of these groups gives medicinal chemists a unique foothold—one that’s hard to match by stacking simpler intermediates. Instead of scraping together routes from less functionalized starting points, researchers can harness this compound’s design to produce high-value targets with fewer steps and cleaner conversions. That saves time, reduces solvent use, and trims costs over the long haul.
Handling hydrazine-containing compounds demands respect and awareness, and this product is no exception. Users work in fume hoods, keep spills tightly contained, and use gloves and goggles as standard practice. But that doesn’t mean working with 2-Hydrazino-5-Bromopyridine is out of reach for most research labs. Any group with routine handling of organic halides will find the safety procedures quite familiar.
Having an established workflow for weighing out small quantities and keeping exposure minimal is the norm in professional labs. On the upside, the solid state of 2-Hydrazino-5-Bromopyridine makes handling a breeze compared to more volatile hydrazines or brominated reagents. Clean-up is straightforward, and precursors' stability at room temperature reduces the risk of accidental decomposition. Like most researchers, I trust in careful preparation and monitoring—consistent measured use of chemicals leads to a safer team and repeatable results.
In my experience, projects often rise or fall on the back of small, overlooked details. The purity of an intermediate can tip the scale from frustration to breakthrough. Sourcing 2-Hydrazino-5-Bromopyridine from reputable suppliers with transparent quality documentation puts control back in the hands of scientists who know what they need. Lot-to-lot tracking, full COA (certificate of analysis) support, and responsive supply chains give industry pros and academics alike the reassurance to plan ambitious projects without worrying about reagent reliability.
I’ve heard from collaborators in both pharma and academia who value clear documentation and open communication regarding critical intermediates like this one. Unexpected variability leads to wasted time, bad data, and tough troubleshooting. With robust supply and thorough data behind each bottle, this product keeps researchers focused on discovery—not on chasing problems upstream.
Across the chemical sciences, there’s rising pressure to deliver faster, cut waste, and stay competitive with global peers. 2-Hydrazino-5-Bromopyridine offers a rare combination: targeted functionality, bench-top stability, and versatility in multiple reaction pathways. For those needing to adapt swiftly, having these traits in one molecule can be a strategic asset.
Green chemistry initiatives also play a role. Minimizing extra synthetic steps, solvent use, and byproduct generation isn’t just good for the bottom line; it’s increasingly demanded by regulators and ethical review boards. Using an intermediate that’s already primed for late-stage functionalization supports these ongoing sustainability goals. Instead of stacking up reaction cycle upon reaction cycle, teams that pivot to more functionalized building blocks like 2-Hydrazino-5-Bromopyridine are meeting modern challenges head-on—while keeping research nimble and resource-efficient.
My own sustainability-conscious projects rely on targets like this; fewer steps mean fewer waste streams, lighter environmental impact, and smoother audit trails. Seeing the bigger picture, products that blend strong synthetic value with environmental mindfulness offer real hope for lasting innovation.
No product is without its hurdles. Price, shelf life, and shipping regulations around brominated or hydrazino-containing compounds must be factored into any large-scale undertaking. Suppliers who stay ahead of changing rules and who offer robust cold-chain or shelf-life guarantees give customers more security and fewer interruptions.
From a chemist’s point of view, the greatest risk with any specialty intermediate comes when cutting corners. Serviceable purity or unreliable supply can turn promising projects sour. Teams benefit from direct, unfiltered communication with their suppliers—status updates, access to technical specialists, and clarity on batch histories matter. By building strong relationships on both sides of the supply chain, chemists protect their timelines, reputations, and ultimately, the outcomes that matter most.
I’ve seen teams get burned by chasing the cheapest possible batch from fly-by-night vendors, only to watch precious weeks slip away testing and retesting their results. Those who invest in stable partnerships with reputable chemical providers gain more than just a product; they earn a partner in their scientific journey.
Trust counts for everything in the lab. Transparent reporting on lot consistency, impurity profiles, and analytical verification is at the core of E-E-A-T (Experience, Expertise, Authoritativeness, and Trustworthiness) principles. This level of transparency is not just regulatory lip service—it’s the backbone of responsible, effective research. Researchers evaluating new intermediates for their work deserve access to thorough technical packages, detailed NMR or LC-MS chromatograms, and responsive technical support teams.
Errors, confusion, and regulatory mishaps often come from silence rather than mistakes. I know the value of being able to pick up the phone or send a quick message to a supplier’s technical team—real people with answers, not robots or endless automated menus. In this way, suppliers become an extension of the lab—a resource, a sounding board, and a safeguard against the unexpected.
The story of 2-Hydrazino-5-Bromopyridine is more than just a chemical supply chain issue; it’s a tale of teams solving hard problems with proven tools, building trust batch by batch and discovery by discovery.
This compound’s reach spans from commercial labs to academic institutions and everything in between. For chemists launching into new areas—whether targeted small-molecule therapy, material innovation, or advanced diagnostics—the ability to rely on repeatable results makes a real difference. A molecule like 2-Hydrazino-5-Bromopyridine streamlines the journey from concept to completion. By offering two reactive handles on a trusted heterocycle, it delivers unique synthetic access not available in more basic pyridine frameworks.
Younger researchers, often tasked with delivering results on shoestring budgets and tight timelines, find real comfort in dependable reagents. Streamlined procurement, accessible online documentation, and direct technical support can mean the difference between success and failure. Open access to technical papers and user feedback further boosts confidence. Labs benefit when suppliers create an ecosystem where knowledge, quality, and practical support intersect.
Reflecting on my years in the lab, I see this molecule and others like it as unsung heroes of scientific progress. Papers cite their use briefly, tucked between methods descriptions and reaction schemes, but the efficiency and reliability of these core intermediates shape the future of countless projects. Their robust performance shortens the road to publication or product launch, diffusing stress and freeing up time to tackle new questions.
Many celebrated discoveries rely on smart, practical product choices made quietly behind the scenes. 2-Hydrazino-5-Bromopyridine stands as a sharp reminder that the right building block—a simple molecule with double-barreled reactivity—can deliver powerful leverage in a field driven by creativity, precision, and perseverance.
Modern research pushes for speed, accuracy, and accountability. The researchers who thrive in this environment pick partners and products that reinforce those values daily. 2-Hydrazino-5-Bromopyridine is no exception; as new synthetic methods develop and regulatory standards tighten, its role will remain essential for those who prioritize quality and transparency.
The move toward more sustainable chemistry will only intensify, and intermediates like this hold the power to smooth that transition. By using highly functionalized starting materials, chemists cut down on hazardous waste, reduce the need for excessive reaction steps, and focus on designing more responsible synthesis from the ground up. Even small changes at the building-block level ripple throughout a project’s lifecycle; products with proven records and reliable support inspire confidence and embolden smarter science at every level.
Ultimately, real progress flows from a blend of experience, trust, and practical innovation. Every bottle of 2-Hydrazino-5-Bromopyridine reflects the confluence of those strengths, supporting both the present and future of chemical research.
