|
HS Code |
654562 |
| Cas Number | 504-29-0 |
| Molecular Formula | C5H6N2 |
| Molar Mass | 94.12 g/mol |
| Appearance | White to pale yellow solid |
| Melting Point | 57-60 °C |
| Boiling Point | 204 °C |
| Density | 1.09 g/cm³ |
| Solubility In Water | Miscible |
| Flash Point | 85 °C (closed cup) |
| Chemical Structure | Pyridine ring with amino group at position 2 |
| Synonyms | 2-Pyridinamine, o-Aminopyridine |
| Odor | Aromatic, amine-like |
| Pka | 6.86 |
As an accredited 2-Aminopyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 2-Aminopyridine is supplied in a 500g amber glass bottle, tightly sealed, with hazard labels and a detailed safety data sheet enclosed. |
| Shipping | 2-Aminopyridine is shipped in tightly sealed containers, protected from light and moisture, and labeled according to hazardous materials regulations. It is classified as a hazardous substance and must be transported in compliance with international and local regulations, including proper documentation, packaging, and handling to ensure safety during transit. |
| Storage | 2-Aminopyridine should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from sources of ignition and incompatible materials such as strong oxidizers and acids. Keep the container protected from direct sunlight, moisture, and physical damage. Proper labeling and secure shelving are essential to prevent accidental spillage or contamination. |
|
Purity 99%: 2-Aminopyridine with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high-yield and minimal byproduct formation. Melting Point 60°C: 2-Aminopyridine with a melting point of 60°C is used in temperature-sensitive organic reactions, where it provides precise control over reaction conditions. Low Moisture Content: 2-Aminopyridine with low moisture content is used in agrochemical formulation, where it prevents hydrolysis and enhances shelf stability. Molecular Weight 94.12 g/mol: 2-Aminopyridine of molecular weight 94.12 g/mol is used in heterocyclic compound development, where it allows accurate stoichiometric calculations in synthesis. High Solubility in Water: 2-Aminopyridine with high solubility in water is used in dye production, where it promotes homogenous mixing and consistent color quality. Stability Temperature 120°C: 2-Aminopyridine with stability temperature of 120°C is used in high-temperature polymerization reactions, where it maintains structural integrity under reaction conditions. Particle Size 50 μm: 2-Aminopyridine of particle size 50 μm is used in catalyst preparation, where it improves dispersion and catalytic efficiency. |
Competitive 2-Aminopyridine prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to admin@ascent-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: admin@ascent-chem.com
Flexible payment, competitive price, premium service - Inquire now!
2-Aminopyridine has earned a strong reputation among chemists for its stability and unique reactivity. Our facility produces this compound to meet the expectations of those who demand reliability for large-scale production and strict quality standards. It continues to be a standalone intermediate in many manufacturing processes that support pharmaceuticals, agrochemicals, and specialty materials.
Through years of continuous production, nuances in reaction conditions and purification have shaped our approach to manufacturing 2-Aminopyridine. We follow rigorous parameters, using repeated crystallization and monitored solvent handling procedures to achieve material that consistently delivers purity suitable for advanced synthesis. Batch control and targeted drying cycles reduce impurity levels or moisture content, supporting not just the yield but also downstream reactivity.
Our 2-Aminopyridine begins as a fine, free-flowing pale solid with a purity often exceeding 99 percent on finished lots. This translates directly to low levels of related substances such as 3-aminopyridine or pyridine residuals, traits that matter whether you’re building active ingredients for drug development or corrosion inhibitors for electronics. The melting range remains tight and authentic, in line with verified reference standards, something that comes only through hands-on process optimization and equipment calibration.
Customers who source straight from chemical plants often cite consistency and transparency as critical factors. As a manufacturer, maintaining lot-to-lot reproducibility is essential. It’s not just about producing a white powder that looks clean; handling process variables like pH, temperature thresholds, and filtration sequences play a role. We back purity declarations with daily chromatography profiles, not just COA statements. Downstream teams get what they expect—no guesswork in performance or reactivity.
2-Aminopyridine deserves its place as a go-to intermediate when building nitrogen-containing heterocyclic compounds. Its primary amine group, attached to the pyridine ring, unlocks specific reactions that other aminopyridines can't match. In the veterinary and pharmaceutical sectors, researchers depend on it for the creation of antihistamine agents, certain antiviral drugs, and local anesthetics. Its precise reactivity with electrophilic halides or acid chlorides offers straight paths to target molecules—paths that would otherwise require more steps, harsher conditions, or unmanageable waste profiles.
Scale-up engineers need more than a technical data sheet; they want to know how a given lot will interact under various pressures, solvents, or process durations. Past collaborations with formulation teams have driven us to monitor shelf life by storing retained samples for years under real-world warehouse conditions, not just in laboratory freezers. Our customers rely on the fact that each bag or drum performs without unexpected caking or color change, even after prolonged storage or repeated handling.
Many experts debate the merits of different aminopyridines for project-specific challenges. 2-Aminopyridine holds a clear advantage over substitutes like 3-aminopyridine or 4-aminopyridine in certain routes, especially where regioselectivity is key. Its electronic structure directs substitution and condensation cleanly, leading to minimal by-product formation if managed correctly. The ortho position on the ring means it participates in cyclization reactions unavailable to its other isomers, serving as a building block for both aromatic and fused heterocyclic architectures.
Technical adaptability sets 2-Aminopyridine apart from other intermediates typically used as amine donors. Its solubility profile, compatibility with a range of acids, and ability to withstand moderate heat allow synthetic chemists to push their processes further. In high-throughput settings or automated lines, its reliable melting and dissolution make it a safer bet than some less predictable alternatives. From an environmental standpoint, our evolved crystallization cycle minimizes trace contaminants and excludes solvent residues, part of a broader aim to cut waste at every step.
Our team manages every critical stage—from sourcing main reagents through packaging and shipment. While the chemistry behind 2-Aminopyridine seems straightforward, minor deviations in raw material quality, moisture ingress, or cooling rates can compromise even a routine run. We test every shipment with hands-on, production-relevant methods rather than relying on only pilot syntheses or external benchmarks.
Trained technicians oversee each batch from the first charge of pyridine backbone to the final sealed drum. Real-world scale brings about its own lessons; temperature probes, overhead stirrers, and automated feeders may require adjustment even after years of experience due to changing outside humidity or feed quality. These continuous improvements, paired with deep institutional knowledge, allow us to minimize downtime and respond to unusual customer needs without added lead times.
The pharmaceutical industry values 2-Aminopyridine for more than just its reactive core. It serves researchers during early-stage lead optimization as well as late-stage process validation. The regulatory trust built through transparent documentation and batch traceability sets us apart—standards driven not only by external audits but also by an internal culture that prioritizes patient and consumer safety.
Firms working on crop protection agents also find 2-Aminopyridine indispensable for building key pesticide scaffolds, thanks to its amine reactivity and ring stability. In more niche sectors, such as specialty polymers, the compound’s unique structure unlocks new classes of resins or cross-linkers. Our long-term clients often point to our openness and detailed process descriptions as essential in passing regulatory submissions or patent filings, since understanding the manufacturing history of a critical intermediate supports downstream success.
Shipping regulations and national controls on raw materials continue to evolve. As a manufacturer, we stay ahead of regulatory shifts, documenting full chain of custody from the plant loading docks to customers’ facilities. Regular engagement with transport companies and end users helps us anticipate bottlenecks, adjusting container types, moisture barrier layers, and custom labeling where necessary to prevent contamination or loss.
Safety in storage, especially in climates prone to humidity spikes or temperature swings, remains a top priority. Our storage guidelines stress air-tight closures and low ambient humidity—simple measures that prevent degradation and ensure smooth redispersion into stocks or reactors. Those who maintain quality labs will notice our focus on easy sample withdrawal for analytic checks, confirmation of stability, and impurity levels before each new campaign.
Routine data analysis helps us optimize throughput, reduce waste, and minimize energy use. Each run brings subtle feedback—sometimes an impurity profile triggers an adjustment in amine addition rates or prompts a rethink of purification sequence. Input from partners has driven us to target narrower particle size distributions, improving consistency during metering or automated dosing.
Clients often reach out with questions about lot comparisons or batch troubleshooting. Longstanding relationships and an accessible technical support channel make two-way feedback a routine part of business. Recently, a partner in fine chemicals alerted us to trace sulfates in a shipment; prompt testing and open dialogue allowed us to track the source and rework processes immediately. By being open to criticism, we improve both outcomes for end users and the robustness of our own systems.
Chemical manufacturing brings a duty to the wider community. Ongoing investment in mitigation strategies on-site has led to reductions in effluent ammonia and improved recovery of unreached pyridine derivatives. We capture process water, treat it to stringent discharge levels, and recycle whenever feasible. Waste minimization appears not only in public reports but in the design decisions that shape our daily operations, motivated more by hands-on experience than external mandates.
Our staff recognize that sustainable production builds trust. Direct relationships with local authorities and environmental officers have informed improvements in air scrubbing and filtration systems. Timely adoption of process improvements, such as enclosed reaction vessels or automated leak detection, means fewer disruptions and lower exposure risks for everyone involved—operators, neighbors, and end users alike.
The unique role played by 2-Aminopyridine in teaching labs and R&D centers remains a point of pride. Years of supplying research teams keep us connected to early-career chemists eager to explore new applications for both this molecule and its analogs. Through pre-shipment technical sessions and detailed process documentation, we help researchers scale syntheses safely and efficiently, transforming bench-top trials into proof-of-concept runs with minimal downtime or wasted material.
By refining our product based on feedback from both research and industry, labs relying on reproducible intermediates see benefits in fewer failed reactions and faster project timelines. Experienced staff often mentor junior chemists onsite during audits or training days, sharing firsthand lessons on solvent handling, temperature control, and the practicalities of risk assessment beyond what textbooks offer.
Our direct involvement with production lines enables flexible packing, shipment sizes, and labeling protocols. For research-scale buyers, we offer small containers rigorously sealed for minimized cross-contamination. Bulk users select from scalable drum or lined bag options, each batch tracked by unique lot identifiers and chain-of-custody records.
Many customers return because transparent dialogue accompanies each delivery: technical guidance, storage consulting, and even pre-emptive recalls if a trend develops in test data. With every shipment, we include detailed documentation showing quality checks, shelf-life findings, and trace impurity levels. Regular communication across technical and purchasing teams keeps finished product moving from our plant into your process without unnecessary administrative delay.
Supplying 2-Aminopyridine to diverse markets—each shaped by different safety rules, labeling needs, and customs requirements—challenges us to stay vigilant. International customers benefit from stable pricing and real-time updates, while those closer to home see facilities first-hand, tour the plant, and audit records on site. These face-to-face exchanges foster a sense of shared responsibility, making both sides more agile in adapting to new industry trends or regulation-driven change.
We see first-hand how process transparency and regular site visits build relationships of trust, giving end users confidence in both the immediate batch and the long-term resilience of the operation. Local partners often request tailored documentation for regulatory filings or faster sample turnaround for pilot runs. With a single, unified team handling production, support, and shipment, the learning curve for new users drops significantly.
Raw material volatility introduces challenges—global disruptions can impact everything from starting amines to packaging films, sometimes at short notice. Our team responds by expanding approved supplier lists and holding strategic stock levels, ensuring commitments are met regardless of upstream headaches. Each contingency relies on real data, collaborative crisis planning, and the willingness to rotate responsibilities among plant and office staff as needed.
From a technical perspective, routine investment in analytical instruments and staff training keeps production responsive to even subtle changes in process chemistry. Unexpected results—whether a slight deviation in melting point or a batch with higher-than-normal trace elements—lead straight to root cause analysis, with corrective action baked into future planning. This cycle of close monitoring, fixing, and learning ensures each lot builds on lessons learned from those before.
Making 2-Aminopyridine isn’t just about meeting purity numbers; it’s an ongoing process of learning, refining, and responding directly to user feedback. Each barrel that leaves our plant represents hundreds of quality checks, technical adjustments, and open conversations with peers throughout the industry. Whether used as a critical intermediate in pharmaceutical synthesis, as a building block for agrochemicals, or as the backbone for specialty materials, its consistent quality is the result of shared expertise and a clear-eyed focus on practical, real-world needs. Our commitment to technical detail fosters long-term relationships, supporting chemists in developing next-generation products and processes that will define the industry for years to come.