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HS Code |
220383 |
| Chemical Name | 5-Amino-2-hydroxypyridine |
| Molecular Formula | C5H6N2O |
| Molecular Weight | 110.12 g/mol |
| Cas Number | 42142-52-9 |
| Appearance | Light brown to brown solid |
| Melting Point | 210-215 °C |
| Solubility | Soluble in water and ethanol |
| Smiles | c1cc(N)cnc1O |
| Inchi | InChI=1S/C5H6N2O/c6-4-1-2-5(8)7-3-4/h1-3,8H,(H2,6,7) |
| Purity | Typically ≥98% |
| Storage Conditions | Store at room temperature in a dry, well-ventilated place |
As an accredited 5-AMINO-2-HYDROXYPYRIDINE factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 5-Amino-2-hydroxypyridine is packaged in a sealed, amber glass bottle containing 25 grams, labeled with chemical identity and safety information. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 5-Amino-2-hydroxypyridine: Packed in 25kg fiber drums, total load approximately 8–10 metric tons per container. |
| Shipping | 5-Amino-2-hydroxypyridine is shipped in tightly sealed containers, protected from light, moisture, and incompatible substances. Transport is conducted in compliance with hazardous materials regulations, ensuring proper labeling and documentation. Standard safety measures include secondary containment and temperature control if necessary. Only authorized personnel should handle and receive this chemical during shipping. |
| Storage | **5-Amino-2-hydroxypyridine** should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers and acids. Protect the chemical from moisture, heat, and direct sunlight. Properly label the storage area and ensure access is limited to trained personnel. Follow all standard chemical storage safety protocols. |
| Shelf Life | 5-Amino-2-hydroxypyridine typically has a shelf life of 2 years when stored tightly sealed, dry, and protected from light. |
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Purity 99%: 5-AMINO-2-HYDROXYPYRIDINE with a purity of 99% is used in pharmaceutical intermediate synthesis, where it ensures high reaction yields and consistent product quality. Melting Point 147°C: 5-AMINO-2-HYDROXYPYRIDINE with a melting point of 147°C is used in high-temperature organic reactions, where it maintains structural integrity and minimizes decomposition. Molecular Weight 112.12 g/mol: 5-AMINO-2-HYDROXYPYRIDINE with a molecular weight of 112.12 g/mol is used in fine chemical manufacturing, where precise stoichiometry enhances process control and efficiency. Particle Size <50 μm: 5-AMINO-2-HYDROXYPYRIDINE with particle size less than 50 μm is used in pigment formulation, where it promotes uniform dispersion and improved color consistency. Stability up to 120°C: 5-AMINO-2-HYDROXYPYRIDINE stable up to 120°C is used in polymer additives, where it ensures long-term product stability during processing and end-use. Water Solubility 15 g/L: 5-AMINO-2-HYDROXYPYRIDINE with water solubility of 15 g/L is used in aqueous dye systems, where it provides high color intensity and ease of formulation. Assay ≥98%: 5-AMINO-2-HYDROXYPYRIDINE with assay greater than or equal to 98% is used in diagnostic reagent preparation, where it guarantees reproducible analytical results. Residue on Ignition <0.1%: 5-AMINO-2-HYDROXYPYRIDINE with a residue on ignition below 0.1% is used in electronics chemical production, where low impurities support device reliability and performance. |
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Every industry relies on certain building blocks, and 5-amino-2-hydroxypyridine has grown into one of those quietly essential foundations that often escape wider attention. Most folks won’t ever hear about this compound by name, but those working in pharmaceuticals, dyes, cosmetics, and specialty chemicals appreciate its value. It’s not some run-of-the-mill intermediate; it’s a specialty product that stands out based on its unique chemical structure and broad versatility.
What gives 5-amino-2-hydroxypyridine real value is that pyridine core—a structure recognized by researchers and professionals alike. This ring, with an amino group at the fifth position and a hydroxyl group at the second, puts it squarely into a small class of molecules that bridge practical functions and advanced applications. I’ve seen clients searching for solutions that demand specific reactivity, chemical resistance, or a balance between hydrophilic and aromatic traits. This molecule answers those needs in a straightforward and reliable way.
It’s easy to find information on chemical purity, melting point, or solubility, but the true worth of a batch doesn’t stop at test results. High-quality 5-amino-2-hydroxypyridine should meet strict quality standards, with purity levels typically above 98%, minimizing the risk of downstream contamination. Reliable suppliers invest in repeatable methods—HPLC, GC, or titrations—to confirm that what’s on the label matches what’s in the drum or jar. In my work, seeing a certificate of analysis that checks out through independent third-party review gives peace of mind not just to buyers but also to anyone depending on compliant final products, like medication or colorants.
Handling this compound safely requires a bit of common sense and good laboratory practice. Protective gloves, well-ventilated spaces, and proper storage away from direct sunlight preserve its integrity. This isn’t just a box to tick for the workplace safety officer; it keeps the material stable, keeps workers safer, and keeps processes on schedule.
Most people don’t think much about the molecular underpinnings of things they use daily. I’ve personally seen 5-amino-2-hydroxypyridine play a key role in pharmaceutical research and development. Medicinal chemists use it as a starting point, modifying its structure to create a range of experimental compounds. Its particular set of amino and hydroxy groups provide handles for attaching more complex molecular fragments. The advantage here is flexibility, because the compound can fit a range of synthetic blueprints. These secondary derivatives are then tested for biological activity, from anti-infective agents to anti-inflammatory options.
Dye makers have relied on this molecule for decades. Sometimes it’s the base for azo dyes, sometimes it supports pigment formulations with stable, vivid colorations. Those working with hair dyes know how essential reliable intermediates are—unpredictable chemistry leads to unpredictable results, and no customer wants questionable outcomes. 5-Amino-2-hydroxypyridine provides a tried-and-tested backbone. I’ve spoken to chemists in textile labs who swear by its ability to produce consistent colors, wash after wash.
Even outside these areas, there are uses in metal treatments, corrosion inhibitors, and flavor chemistry—though these are more specialized. Companies are always on the lookout for a molecule they can count on for purity and predictable behavior under a range of conditions.
Out in the market, many chemical intermediates crowd the field, but few combine stability and reactivity in quite the same way. For researchers, variety doesn’t just mean lots of options; it means headaches sorting the reliable from the risky. I’ve watched teams struggle with other pyridine derivatives—some might react too aggressively, others not at all. 5-Amino-2-hydroxypyridine hits a sweet spot, offering functional groups that are neither too stubborn nor too wild. This makes it popular among bench scientists tackling complex syntheses. You get enough reactivity to link up with a wide assortment of other fragments, but you avoid many of the pitfalls of less stable analogs.
Compared to plain pyridine, or even other amino- or hydroxy-substituted versions, this molecule’s particular arrangement allows for more nuanced chemical transformations. That can mean more control over products and fewer unwanted side-reactions. Any chemist who’s ever spent days separating unwanted byproducts will appreciate that kind of reliability. With so many demands for performance and safety in pharmaceuticals and dyes, being able to count on your starting materials goes a long way.
Anyone who’s wrestled with inconsistent quality, shipping delays, or questionable suppliers knows the cost of cutting corners. There’s no shortcut to quality. I remember hearing from a production manager who’d switched to a low-cost supplier and ended up seeing entire batches of finished products compromised by just a fraction of a percent of impurities. This isn’t just an inconvenience—it turns into tens of thousands in lost time and scrapped materials. High standards for 5-amino-2-hydroxypyridine minimize those risks.
Trust builds up batch after batch, year after year. Reputable producers don’t just stop at minimum regulatory requirements. Audited records, traceable raw materials, consistent handling processes—these steps separate suppliers you want from those who won’t stick around when problems arise. From what I’ve seen, industry veterans learn to ask tough questions up front: Who certifies the lab results? Where were the raw materials sourced? If the supplier won’t answer, best steer clear.
No chemical product is free from risk or controversy. With 5-amino-2-hydroxypyridine, most proper handling and health questions come down to two categories: workplace exposure and downstream impact. Anyone working with fine chemicals should take precautions—ventilation, protective wear, and regular training are nonnegotiables. Experienced lab workers know the real threat isn’t often the compound itself, but cumulative lapses in attention, tired habits, or misplaced storage.
Environmental factors also deserve real scrutiny. Even trace amounts of specialty chemicals can build up over years. Responsible producers and users invest in proper waste handling and effluent management. This isn’t about ticking a regulatory box; it’s about stewardship and foresight. If a supplier can’t show a clear plan for dealing with waste or environmental impact, they’re not a partner worth having.
What sets a supply apart isn’t always obvious on a specification sheet. I’ve seen too many labs learn the hard way after buying on price alone, only to eat the cost of re-running entire lots. What matters most: documented purity, batch consistency, transparent analytical support, and responsive communication. These traits don’t show up until the orders arrive and the work starts.
Look for detail on how the material has been handled—from its first synthesis, through packaging, to delivery. Proper labelling, safe container materials, and tamper-evident seals all add to peace of mind. A supplier worth trusting doesn’t shy away from audits, and their paperwork matches what’s in the drum. These small steps can spell the difference between a successful project and unnecessary setbacks.
Chemical manufacturing is steadily moving toward more sustainable practices, and even specialty products like 5-amino-2-hydroxypyridine aren’t immune. Companies are rethinking batch and continuous production methods to reduce solvent use, cut down on hazardous byproducts, and improve energy efficiency. Many seek to win over clients with greener credentials, using renewable feedstocks or closed-loop systems to limit waste. While progress can be slow, pressure from both buyers and regulators keeps the industry moving in the right direction. I've seen several larger companies take steps to phase out problematic reagents, adopt water-based processing, or even introduce recycled-content packaging. This benefits not just the environment, but also plants and employees who handle these products daily.
Digital systems play a bigger role too. Automated monitoring and real-time tracking let manufacturers catch inconsistencies before batches go out the door. These systems strengthen traceability, keeping counterfeit or sub-par chemicals from slipping into good batches. Prospective buyers can check digital logs, not just printed paperwork, for an extra layer of security. While not every supplier is there yet, those who invest in this sort of technology win loyal clients over time.
Supply chain disruptions, cost pressures, and shifting regulations challenge anyone relying on a steady stream of specialty chemicals. One of the things I’ve learned is just how important it is to build a good relationship with vendors—not just a transactional link, but a partnership. Reliable two-way communication can help solve problems before they snowball. For instance, if weather delays threaten a shipment, honest updates let labs reschedule or shift priorities before things get out of hand.
Pooling resources through industry associations and shared safety audits increases transparency, diffuses risk, and creates leverage for buyers. Technology also helps: online marketplaces and collaborative order platforms let smaller labs and manufacturers share shipping, reduce minimum orders, and crowdsource solutions for unexpected hitches. These steps make the world of specialty chemicals a little less uncertain for everyone involved.
Beyond what you see on a label or website, there’s another resource—experience. People matter as much as molecules. The best producers hire and train experts who know their craft, who recognize a bad batch before it leaves the floor, and who respond quickly to questions or unusual requirements. The same truth applies on the buying end. Staff who stay current, share insights, and keep asking what’s new bring value to their companies and customers alike.
In my time around technical teams, I’ve seen that sharing lessons learned isn’t just a nicety—it’s the backbone of continuous improvement. Someone’s bad experience saving another from repeating a mistake can be worth more than a handful of standard operating procedures. That circle of trust, built on expertise and open communication, is how the industry pushes toward better, safer, and more reliable options.
The role of 5-amino-2-hydroxypyridine isn’t standing still. As pharmaceutical firms chase harder-to-make drug targets, and colorant makers seek more durable, faster-reacting dyes, this compound keeps popping up in new ways. Researchers take advantage of its reliable reactivity to shrink development times. With new needs always arising—more environmentally benign chemistry, more precise reactivity, improved safety—it’s likely this compound will keep evolving too.
Every industrial supply comes with a story: batches that didn’t make it past quality checks, projects hit by trace impurities, or partnerships forged by transparent dealing. 5-Amino-2-hydroxypyridine is more than a name on a container—it’s become a byword for performance where it counts. I’ve heard of old hands in the trade passing along tips on suppliers the same way families hand down recipes. In this business, trust rides on every shipment, every day.
Plenty of chemical intermediates boast similar features on paper, but this one has made its reputation by consistently delivering on difficult projects. Some competitors might bring higher reactivity, others push the envelope of water or solvent compatibility. None seem to balance reliability and versatility quite as well. Saving days or weeks debugging a process, or passing a tough regulatory audit, is no accident.
Greater purity, manageable reactivity, and a heritage of performance all mean less time spent troubleshooting and more focus on advancing the work that matters. For those in fast-moving R&D, or tight production timelines, these differences turn into real competitive advantages.
No commentary would be complete without recognizing the hurdles that remain. Rising costs in raw materials, labor shortages, and ever tighter regulations on chemical production put pressure on everyone in the industry. Adaptability counts. Skilled professionals, advanced manufacturing controls, and robust partner networks lighten the load.
Opportunities for innovation spring from these challenges. As research labs demand cleaner, greener chemistry, and as buyers insist on transparency and documented compliance, the producers most willing to listen and evolve stay at the front. New applications, from advanced drug design to sustainable pigments, lie just over the next horizon.
If one lesson stands out from decades in the specialty chemical field, it’s this: nothing beats integrity, consistency, and mutual respect. Products like 5-amino-2-hydroxypyridine don’t build trust overnight—quality and reliability must be proven over time, under real-world conditions. Forward-thinking producers, careful buyers, and skilled technicians together make sure this unassuming molecule continues earning its place at the center of modern industry.
