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HS Code |
886341 |
| Chemical Name | 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride |
| Cas Number | 68462-98-6 |
| Molecular Formula | C11H12ClN5 |
| Molecular Weight | 249.70 g/mol |
| Appearance | Red to brown powder |
| Solubility | Soluble in water |
| Melting Point | Decomposes above 200°C |
| Storage Conditions | Store in a cool, dry place, protected from light |
| Purity | Typically ≥98% |
| Synonyms | Pyridine, 3-(phenylazo)-2,6-diamino-, monohydrochloride |
| Application | Dye intermediate, analytical reagent |
| Inchi Key | YRVJXTQGVJFAPI-UHFFFAOYSA-N |
| Hazard Class | Irritant |
| Density | Approx. 1.40 g/cm³ |
As an accredited 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 50-gram amber glass bottle with a tightly sealed cap, labeled "3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride, analytical grade." |
| Container Loading (20′ FCL) | 20′ FCL container loads 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride securely packed in HDPE drums or bags, maximizing export efficiency. |
| Shipping | 3-Benzeneazo-2,6-diaminopyridine monohydrochloride is shipped in tightly sealed containers, protected from light and moisture. It is packaged according to safety regulations for hazardous chemicals, typically under controlled temperature conditions. Proper labeling with hazard and handling information ensures safe transportation and compliance with local and international chemical shipping guidelines. |
| Storage | 3-Benzeneazo-2,6-diaminopyridine monohydrochloride should be stored in a tightly sealed container, protected from light and moisture, in a cool, dry, and well-ventilated area. Avoid exposure to incompatible substances such as strong oxidizing agents. Store at room temperature and ensure the storage area is clearly labeled and complies with relevant chemical safety regulations. |
| Shelf Life | 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride is stable for at least 2 years when stored cool, dry, and protected from light. |
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Purity 98%: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with purity 98% is used in high-precision dye synthesis, where optimal chromatic stability is achieved. Melting Point 225°C: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with a melting point of 225°C is used in thermal-resistant pigment manufacturing, where enhanced processing reliability is maintained. Molecular Weight 261.72 g/mol: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with molecular weight 261.72 g/mol is used in analytical standard preparation, where consistent calibration accuracy is provided. Particle Size <10 µm: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with particle size less than 10 µm is used in inkjet ink formulation, where superior dispersion and print definition result. Stability Temperature up to 180°C: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with stability temperature up to 180°C is used in high-temperature coating processes, where prolonged color integrity is ensured. Solubility in Water 50 mg/mL: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with solubility in water of 50 mg/mL is used in aqueous dye formulation, where rapid integration and homogeneity are achieved. UV Absorption λmax 490 nm: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with UV absorption at λmax 490 nm is used in spectrophotometric assays, where sensitive quantitative analysis is accomplished. Hydrochloride Content 11%: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with hydrochloride content of 11% is used in pharmaceutical research, where defined ionic composition facilitates controlled reactivity. Shelf Life 24 months: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with a shelf life of 24 months is used in long-term chemical storage facilities, where stable performance over time is guaranteed. Residual Moisture <0.5%: 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride with residual moisture less than 0.5% is used in moisture-sensitive electronic material manufacturing, where reduced risk of degradation is achieved. |
Competitive 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride prices that fit your budget—flexible terms and customized quotes for every order.
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Decades on the factory floor have taught us every nuance in the creation of 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride. This compound’s journey from raw intermediates to a finished, dependable product involves precision, vigilance, and an appreciation for small details others overlook. Those seeking a chemical that meets the real demands of synthesis—especially in dye manufacture and advanced research—find this substance hard to replace. Every kilo leaving our reactors has already gone through rigorous development, reflecting years of chemical engineering and unwavering adherence to consistent quality.
We don’t view 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride as a simple listing in a catalog. Instead, it represents a deep commitment to process stability, reproducibility, and chemical purity. This approach produces value for users in both routine and experimental applications, where minor deviations lead to failures or costly reruns. At the bench or in industrial setups, performance depends on purity, particle size, and ease of handling—not on generic promises—but on lived results and ongoing collaboration between our chemists and those who use the compound.
Through hands-on scaling in our reactors, we standardize this compound under a model known unofficially among our teams and customers as BZDP-26DAP.HCl. Sterile and protected storage, transparent records, and batch-by-batch tracking define our handling process, avoiding model confusion and eliminating unnecessary risks. Specification sheets alone never capture the substance’s behavior under actual working conditions. We focus on realities: color consistency, solubility in relevant solvents, accurate melting point windows, and contaminant monitoring down to practical detection limits.
The striking orange-red solid that arrives in the drum isn’t merely visually distinct. That signature look flags completion of the azo coupling reaction and proper hydrochloride stabilization. Our controls prioritize not just high purity, but low residual moisture, unreacted starting materials, and stable particle morphology for safer and smoother downstream usage. Every parameter we check connects to direct experience: we’ve seen how trace metal ions or subtle by-products can ruin batches, wasting both time and raw materials for users. Each improvement, documented over many years, comes from lessons learned with partners’ feedback instead of a desire to add merely impressive numbers to data sheets.
Most customers don’t just buy a chemical—they invest in a reliable tool for complex workflows. 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride typically finds use in specialty dye manufacture and select organic syntheses, where it acts as an intermediate or building block. At one of our partner dye houses, a production chemist once shared how even minor inconsistencies in the feed material spiked rejection rates down the line. Only after collaborating on process controls for this specific compound did they achieve a breakthrough in yield, reducing cycle times and costs. Others rely on its unique structure in analytical chemistry, where reactivity patterns aid in trace ion detection and pigment research.
We also routinely supply universities and research centers. Academics and students need consistency for reproducibility in studies on azo coupling mechanisms or catalytic transformations. Failures due to impurities don’t only cost time; they risk reputations and funding. For these groups, every batch shipment includes supporting data relevant to research—impurity profiles, historical performance, and, when needed, open access to technical specialists who handled each lot. Supporting the next wave of discoveries matters much more to our team than making a one-off sale, so we’ve built channels for technical queries that stretch from initial orders all the way to thesis defense or new product trials.
Working side-by-side with process chemists has made us acutely aware of how 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride sets itself apart from other azo compounds or diaminopyridines in the same chemical family. Many alternatives on the market offer similar molecular frameworks but often lack the same ease of purification or have unpredictable behavior during scale up. One common issue we’ve solved is the challenge of maintaining color brightness and product stability after months of storage—whether under warehouse lights or sunlight during routine handling.
Unexpected moisture absorption once led to a string of clumpy, partially decomposed shipments from a competing supplier. We mapped out humidity profiles throughout the logistics chain and revised our packaging, resulting in a shelf-stable, free-flowing product. Feedback from labs and production teams showed significant reductions in downtime owing to these efforts. This attention to detail reinforced that chemical composition alone never tells the full story—handling characteristics, environmental robustness, and real-world user experience count for just as much.
Our plant’s scale brings unique challenges and opportunities for this molecule. Small-batch syntheses often mask issues that spiral at industrial volumes. We’ve invested in process intensification and automation, enabling batch sizes flexible enough for custom runs but large enough to supply global partners. Every drum produced receives traceability from initial charge to final seal, and we’re confident offering tours of our process lines because plant operators understand why each control step exists. Visitors often remark on the low reject rates and consistent product flows—they see crews trained in root-cause analysis, not just routine monitoring.
Supply disruptions lead to more than missed deliveries—they damage manufacturing schedules downstream. Experience has taught us that weather, power outages, and raw material fluctuations all threaten continuity, so we plan with substantial safety stock and backup capacity. One year, an upstream shortage threatened a customer’s scale-up for a new dye. By shifting production schedules and securing alternative sourcing without diluting standards, we made deliveries on time and earned a decade-long supply relationship. Process control goes beyond chemistry; it’s a web of human planning, ethical sourcing, and practical commitment to shared goals.
For this compound, our internal benchmarks surpass many published standards. The years of feedback loops from customers and regulators guide batch releases. Regular investment in analytical equipment—a legacy of overcoming failed audits—keeps us ahead of the curve. Our certificate of analysis delivers hard numbers for real contaminants, and our retention samples allow rapid investigation if any issue emerges, whether in our warehouse or at an end user’s mixing station. The bulk of our technical staff hold direct experience not just in analytics, but in trouble-shooting complex reactions dependent on extreme purity.
Since new regulations often appear unexpectedly, we adapt faster than most. Instead of waiting for the next government audit, our compliance teams work in the lab and on the floor, identifying bottlenecks and stress testing improvements. For customers in regulated environments—whether pursuing ISO certification or new environmental disclosures—we offer documentary support tailored to the specifics of this material, rather than boilerplate text. There’s no real substitute for watching auditors process your documentation and emerge satisfied—a feeling shared by both our team and those relying on our product.
After hundreds of batches, problems pointing to specific chemical hazards or operational headaches inevitably crop up. For example, we’ve faced sudden issues with batch-to-batch color shift, traced back to a minor upstream solvent variation introduced by a raw materials vendor. Direct communication with their engineering team, paired with close monitoring over weeks, resolved the root problem. These small but critical fixes—rarely visible to outsiders—support robust performance, batch after batch.
Safe handling stands high on our priority list. The monohydrochloride salt form offers advantages in stability and reactivity but requires correct precautions for dust control, ventilation, and personnel protection. We’ve implemented local exhaust, specialized containment, and regular training. Stories from workers bring the protocols alive for new hires, grounding technical instructions in real-world scenarios. No error goes unreviewed, and our incident log—while never a source of pride—drives ongoing process and safety upgrades.
Every buyer brings unique goals, and as manufacturers, we match our strengths to meet those demands. One pigment manufacturer needed tighter control on trace metal impurities than our typical detection range. Instead of pushing back, we invested in new ICP-MS capability, successfully hitting the tighter specification. The customer’s formulation stabilized and production complaints dropped to near zero, resulting in mutual trust and additional orders over time.
For research institutions working at cutting-edge interfaces between solid-phase and solution-phase chemistry, we adapted drying, milling, and packaging protocols to reduce caking and static build-up during formulation trials. Eliminating frustrations at the bench leads to breakthroughs in publication and development, which in turn reflects positively on the reliability of our supply chain. Every tweak, every process modification, starts with a conversation—not from form letters, but from fielded questions and direct sample feedback.
Plenty of alternatives offer competitive pricing or similar spectral signatures, but real-world users often report issues not evident from a simple NMR comparison. One competitor supplied the free base instead of the hydrochloride salt, promising “added versatility.” End users soon found increased batch variability and excessive handling precautions due to dust hazards, something we engineered away many years earlier. Our staff—who have worked both in chemical synthesis and in customer support roles—can spot such trade-offs and advise accordingly.
Some explore in-house synthesis to cut costs, trusting basic literature procedures. Feedback invariably describes inconsistent yields, extra labor tied up in purification, and frequent rework due to smaller, less controlled reaction setups. Outsourcing to a dedicated manufacturer consolidates years of hard-won process controls into a seamless supply, freeing chemists to focus on innovation instead of fire-fighting avoidable process failures. This proficiency cannot be extracted from mere technical documentation—it comes through direct accountability for what leaves our plant, bearing our name and reputation.
Deep experience with azo production has given us a unique understanding of the waste challenges tied to compounds like 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride. Early attempts produced large quantities of off-spec intermediates and unmanageable wastewater streams. Through incremental process improvements, solvent recycling, and close-loop filtration, we achieved dramatic reductions in waste output. Our environmental reporting holds up to governmental review, not because of vague intentions, but because we translate compliance into plant floor practices that any inspector or visitor can see in action.
Traditional pigment and intermediate synthesis can create nitrosamine by-products under certain conditions, prompting sharp regulatory scrutiny in recent years. As these alerts reached the industry, our teams ran toxicological testing on each major by-product stream, eliminating or managing any hazardous build-up before shipping. Working closely with regional authorities, we adopted best practices that not only meet but surpass evolving safety and environmental guidelines.
Clear communication between users and the manufacturing floor underpins every successful shipment. We encourage open exchange of technical concerns, even after a product has shipped, so that any issues prompt rapid investigation and remediation. Long-term relationships often grow from these moments: one client’s unexpected analytical oddities led to a plant-wide review, with both teams collaborating on improved monitoring methods that helped both parties avoid similar surprises in the future.
Helping customers navigate supply chain disruptions or regulatory shifts matters just as much to us as optimizing plant throughput or batch yield. During times of restricted access to starting materials, we work with buyers to forecast needs and allocate stock fairly, prioritizing those with continuous process requirements. By acting as partners rather than commodity suppliers, we help stabilize production lines, research initiatives, and end-use product launches for those who place their trust in our technical expertise and reliability.
Manufacturing 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride carries with it an implicit promise to every customer. Instead of standing still, we continually look for ways to optimize process steps, adopt safer materials handling, and drive down energy and waste intensity. If a better, more sustainable extraction or purification emerges, we don’t wait for customer demands—we roll those changes onto our main line, accompanied by fresh data sheets and hands-on training for our teams.
Technical excellence never exists in a vacuum. Partnerships with academic labs, co-development programs with end users, and open-house technical sessions all contribute to the growth of capability across the value chain. We’ve seen for ourselves how open engagement and inbound feedback yield a stronger product and a more resilient manufacturing outfit, able to deliver world-class quality year after year. At the core lies a simple but demanding mission: supply a compound counted on by thousands, engineered and delivered as if every gram were meant for our own critical application.
Many chemicals pass through the world unnoticed, rarely gathering feedback beyond routine quality checks. 3-Benzeneazo-2,6-Diaminopyridine Monohydrochloride occupies a different category for us—its constant use in advanced synthesis, research, and manufacturing makes each shipment a test of our methods, our learning, and our integrity as producers. Every batch records the lived experience of chemists, operators, and users. Each improvement adds resilience for those downstream. Our doors remain open to technical discourse, client-led audits, and collaborative troubleshooting, setting a standard that endures long after any given lot has shipped out the door.
