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HS Code |
820488 |
| Chemical Name | 3-Pyridinecarboxylic acid, sodium salt |
| Synonym | Sodium nicotinate |
| Molecular Formula | C6H4NNaO2 |
| Molar Mass | 145.09 g/mol |
| Appearance | White to off-white crystalline powder |
| Solubility In Water | Freely soluble |
| Melting Point | 220-230°C (decomposes) |
| Cas Number | 3731-56-8 |
| Ph Of 1 Solution | Approximately 7.5-9.0 |
| Storage Temperature | Room temperature (15-25°C) |
As an accredited 3-Pyridinecarboxylic acid, sodium salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 3-Pyridinecarboxylic acid, sodium salt is supplied in a 100g sealed amber glass bottle with tamper-evident cap and hazard labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 15 metric tons loaded in 600 kg net weight bags, securely palletized, moisture-protected, and shrink-wrapped. |
| Shipping | 3-Pyridinecarboxylic acid, sodium salt should be shipped in a tightly sealed container, protected from moisture and stored in a cool, dry place. The package must comply with applicable chemical transport regulations, including appropriate labeling and documentation for safe handling. Avoid contact with incompatible substances during shipping to ensure the integrity of the product. |
| Storage | 3-Pyridinecarboxylic acid, sodium salt should be stored in a tightly sealed container in a cool, dry, well-ventilated area. Keep away from moisture, heat sources, and incompatible substances such as strong acids and oxidizers. Store at room temperature and protect from light. Ensure proper labelling and avoid exposure to excessive humidity to maintain product stability and prevent degradation. |
| Shelf Life | Shelf life of 3-Pyridinecarboxylic acid, sodium salt: Typically 2–3 years when stored in a cool, dry, and tightly sealed container. |
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Purity 99%: 3-Pyridinecarboxylic acid, sodium salt with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and minimized impurities. Water solubility: 3-Pyridinecarboxylic acid, sodium salt with high water solubility is used in agrochemical formulation, where it provides uniform dispersion for effective application. Molecular weight 143.09 g/mol: 3-Pyridinecarboxylic acid, sodium salt featuring a molecular weight of 143.09 g/mol is used in biochemical assays, where consistent mass enables accurate reagent preparation. Particle size <50 μm: 3-Pyridinecarboxylic acid, sodium salt with particle size less than 50 microns is used in catalyst support manufacture, where enhanced surface area boosts catalytic activity. Melting point 220°C: 3-Pyridinecarboxylic acid, sodium salt with a melting point of 220°C is used in heat-sensitive formulation processes, where thermal stability prevents degradation. Stability temperature up to 200°C: 3-Pyridinecarboxylic acid, sodium salt stable up to 200°C is used in polymer modification, where it maintains performance during high-temperature processing. pH range 6.5-7.5: 3-Pyridinecarboxylic acid, sodium salt with a pH range of 6.5-7.5 is used in buffer solutions, where it ensures solution stability for analytical procedures. Low heavy metal content (<10 ppm): 3-Pyridinecarboxylic acid, sodium salt with heavy metal content below 10 ppm is used in food additive research, where purity standards meet regulatory requirements. Assay ≥98%: 3-Pyridinecarboxylic acid, sodium salt with assay greater than or equal to 98% is used in analytical reference materials, where high assay supports reliable calibration. UV absorbance 260 nm: 3-Pyridinecarboxylic acid, sodium salt with significant UV absorbance at 260 nm is used in nucleic acid quantification applications, where it facilitates accurate spectrophotometric measurements. |
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In chemical manufacturing, practical knowledge matters. As the team accountable for the production of 3-Pyridinecarboxylic acid, sodium salt, we know this material inside out—its synthesis process, daily challenges during batch production, uses our customers rely on, and its interaction with common applications. 3-Pyridinecarboxylic acid, sodium salt, known in many labs as sodium nicotinate, belongs to the pyridine carboxylate family. Compared to its parent compound, nicotinic acid, the sodium salt version brings unique solubility, reactivity, and storage characteristics to the table. These advantages stem not only from formulation but also from consistent, carefully monitored manufacturing practices that ensure customers receive material meeting real-world demands.
We manufacture this compound through a controlled neutralization reaction, employing advanced purification techniques to limit trace contaminants. Through years of experience, our team has learned that even minor manufacturing shifts can impact qualities such as particle size, flowability, and shelf persistence. Regular analytical checks keep our batches consistent, since unpredictable results slow down research and product development downstream.
Scientific labs and process engineers expect more than just “chemically correct.” In our facility, “Model NC-300SB” marks our standard grade for 3-Pyridinecarboxylic acid, sodium salt. This material comes in a free-flowing, water-white crystalline powder, guaranteed minimum purity of 99 percent by HPLC, routinely exceeding this value in random sample testing. Moisture content averages less than 0.5 percent due to rigorous drying protocols. Sodium levels stay well within documented process variation limits, as excessive sodium or trace residual acids can influence downstream catalysis.
Shelf stability frequently comes up during customer consultations. Direct feedback from pharmaceutical and fine chemical customers revealed that off-the-shelf material must withstand routine air exposure without significant caking or color change. To address this, we store finished product under nitrogen until shipment, pack in air-tight, fiberboard drums lined with polyethylene, and seal all bags at a level above industry norms to reduce oxidation risk.
In laboratory use, sodium nicotinate has replaced raw nicotinic acid in a wide range of biochemistry, pharmaceutical, and industrial applications. Sodium salt form performs better in aqueous workups because of its rapid solubility. Researchers scaling up synthesis projects benefit from its reliable behavior in both experimental trials and kilo quantities. We see steady orders from institutions working on metabolic studies and as intermediates for specialty pharmaceuticals, particularly in pathways where sodium counter ions are desired or tolerated by biological systems.
The cosmetic and food sectors also use it, but requirements shift depending on region and end use. Our technical team works directly with formulators exploring it as a fortification ingredient for nutritional supplements, leveraging its improved dispersion properties versus traditional nicotinic acid.
There’s value in discussing the day-to-day reasons customers switch from nicotinic acid or other pyridine carboxylate salts to this sodium salt. First, water solubility is significantly improved without the bitterness of potassium or calcium versions. Formulators in the beverage industry, for instance, require rapid and uniform dissolution in both low and high pH environments. Sodium nicotinate dissolves rapidly with minimal visible residue, which matters when customers track haze or precipitation.
Another advantage lies in reactivity within organic synthesis. Our customers report fewer side reactions during esterification or amidation when using our sodium salt grade. The carboxylate anion is fully neutralized—an important factor for processes sensitive to free acids. Because our production process targets excess base removal, pH drift remains minimal during aqueous manipulations, reducing the risk of batch failure.
Producing small molecule intermediates shows where theory diverges from lab-scale reality. Reaction completion rates and downstream purification steps often hinge on the type and quality of starting salt. We continually monitor thermal stability and decomposition onset temperatures. Impurities (such as chloride ions or metals) can lead to colored byproducts or gel formation. That’s why we track and limit any catalyst carryover from the original manufacturing step. Inclusion of final batch certificates with every shipment is not just a compliance step—it helps customers trace the chain of custody during regulatory audits.
End users have reported that material from generic traders and repackagers, often lacking full supply chain transparency, can introduce unexpected contaminants or variable hydration. Unlike direct-from-manufacturer stock, which we maintain under strict, temperature-controlled conditions, repackaged material may cede ground on both purity and shelf life. Care in logistics extends warehouse-to-warehouse: we ship on standard export pallets, minimize unsealed transfer steps, and provide customers with photographic documentation of outgoing shipments for reference.
In research, pharmaceutical process, and industrial contexts, demands run far beyond purity. For instance, some partners request fine-particle material for suspension preparations, while others require a coarser mesh product for solid blending. In these cases, we adjust granulation directly at the production stage—never after the fact—so each batch meets the expected standard. Our workers know that a slight deviation in milling or classification impacts handling and reliability further down the line. On-site, every run is logged with particle-size data matched batch-by-batch, with records stretching back for more than a decade.
Reliability is not just about test methods. End users need material that passes both bench and scale-up trials. Take the example of a biotech firm scaling up a production run of a vitamin-based drug—any sudden change in salt quality leads to costly downtime or product rejection. We have worked side by side with technical staff at partner sites, troubleshooting purification problems that tie back to salt grade, granulation, or latent moisture uptake. Our technical service extends after delivery; we share know-how on best storage practices, offering documentary support and packaging alternatives for high-humidity climates or long shipping times.
Many customers express growing concern about raw material traceability, environmental compliance, and human safety. As the direct manufacturer, we’re accountable. Our plant operates under strict national and international chemical safety standards, and we maintain full material traceability from raw pyridine intake to outgoing finished product. Where environmental controls evolve, we commit to capturing process waste and recycling pyridine loop streams. Continuous improvement—a daily subject in our plant meetings—covers both safety and efficiency.
We maintain full REACH registration and supply full documentation for all markets we serve, including US, EU, and key Asian jurisdictions. Our regulatory staff updates SDS and compliance filings as legal changes roll out—never assuming registration in one market covers the demands of another. Detailed batch records remain on file and are available to end users as needed for audits or internal review.
Direct communication matters. Customers regularly tell us about time wasted chasing third-party distributors for answers about material identity, grade, or storage. Misleading repackaging or relabeling leads to questions during audits or internal regulatory review. As producers, we always supply original, manufacturer-sealed containers with batch numbers, date of production, and original labeling.
We do not outsource final packing or labeling, and we keep control over material movement throughout our production cycle. This ensures every drum shipped contains only what it should—without substitutions, degradation, or confusing documentation. For customers managing internal quality programs, full transparency about our process, supply chain, and support is critical.
Unlike mainstream commodity salts, 3-Pyridinecarboxylic acid, sodium salt responds directly to small storage, transport, and compounding conditions. One customer in northern Europe, for example, encountered caking and spot discoloration with non-manufacturer supplied material, traced back to storage under fluctuating temperature and humidity. Direct shipments from our plant eliminated this issue by ensuring cold-chain transit and internally sealed packaging.
We invest in internal stability testing, monitoring for changes in assay, color, or pH on monthly intervals across our retained reference samples. Several product upgrades have emerged from these studies, including a short-run of enhanced, anhydrous grade for a critical vaccine intermediate where even minor moisture introduction stopped the synthesis cascade. Adjustments in drying parameters and nitrogen blanketing directly addressed the customer’s challenge, quickly scaling from a custom solution to a permanent enhancement for select production runs.
True expertise builds on candid conversations with users. We maintain open dialogue, fielding technical questions, stability concerns, or even packaging trials. Our development chemists document every outlier, logging questions from bench chemists, food scientists, and regulatory staff alike. These insights feed back into both our QC procedures and production planning. For example, recurring requests for smaller, single-use packaging led us to expand our line, offering 1 kg, 5 kg, and 25 kg options alongside bulk 100 kg drums. We welcome back-and-forth on process changes, sharing learning from both setbacks and successes.
We build every improvement—from tighter filtration regimes to enhanced UV-blocking packaging—on feedback and real data. Real-world demands, not abstract ideals, shape both our product line and technical support resources. Documentation follows each drum, with full batch and test data available on request. Technical personnel assign their name and contact to each shipment, keeping direct accountability at the forefront.
Our product experience stretches beyond the lab or process plant. From direct support during pilot trials, to troubleshooting plant-scale mixing, to helping address regulatory challenges during ingredient registration, we bring practical knowledge to the full supply chain. In the vitamin supplement industry, for instance, our work on dissolution trials and flavor masking paved the way for new beverage formulations where bitterness suppression and shelf clarity mattered.
In each case, we balance rigorous control with the practical demands of everyday production and research. Shared expertise, direct accountability, and continuous improvement keep us responsive as requirements shift across industries or markets. As the direct manufacturer, we bring not only a high-purity compound, but a culture of responsiveness, openness, and commitment to long-term partnership in chemical supply and innovation.
Choosing 3-Pyridinecarboxylic acid, sodium salt from those who make it—rather than those who only move or repack it—confers peace of mind. Real experience translates into reliability in use, transparency in documentation, and support before, during, and after delivery. We’ve seen the headaches caused by ad hoc substitutions, short-dated or off-grade product, and third-party repackaging. Our supply always maintains direct manufacturing lineage, tightly spaced quality checks, and hands-on technical service.
By building production and service around end user needs, not marketing puffery, we deliver value through both product and partnership. Our efforts keep pace with changing regulatory frameworks, customer innovations, and environmental standards. Looking ahead, we welcome new challenges and opportunities, grounded by the track record built through years of practical, responsible manufacturing of 3-Pyridinecarboxylic acid, sodium salt.
