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HS Code |
500155 |
| Product Name | 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT |
| Synonyms | Sodium pyrithione |
| Cas Number | 3811-73-2 |
| Molecular Formula | C5H4NNaOS |
| Molecular Weight | 149.14 g/mol |
| Purity | 95+% |
| Appearance | White to off-white powder |
| Solubility | Soluble in water |
| Melting Point | 260 °C (decomposes) |
| Storage Conditions | Store at room temperature, tightly closed, dry place |
| Inchi Key | ZFPDWIPDPPYOKH-UHFFFAOYSA-M |
| Ec Number | 223-296-5 |
| Hazard Statement | Harmful if swallowed, causes serious eye damage |
| Application | Antimicrobial agent, personal care preservative |
| Smiles | C1=CC=NC(=C1O)S=[O-].[Na+] |
As an accredited 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 25g amber glass bottle with a white screw cap, labeled "1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+%" and safety information. |
| Container Loading (20′ FCL) | 20′ FCL loaded with 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+%, securely packed in drums, compliant with chemical transport regulations. |
| Shipping | 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is typically shipped in secure, airtight containers to prevent moisture and contamination. The packaging ensures stability during transit and may include hazard labeling. The chemical should be shipped following relevant regulations for chemical safety, handling, and documentation to ensure safe delivery. |
| Storage | Store **1-Hydroxy-2-pyridinethione sodium salt (95+%)** in a tightly closed container, in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers and acids. Protect from moisture and direct sunlight. Avoid excessive heat. Ensure good laboratory practices and local regulations for storage, and keep away from food and drink. Use appropriate labeling and safety measures. |
| Shelf Life | Shelf life of 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is typically 2 years when stored tightly sealed in a cool, dry place. |
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Antimicrobial: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in personal care formulations, where it provides effective broad-spectrum antimicrobial protection. Purity: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in industrial water treatment systems, where high purity enhances microbial control efficiency. Stability: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in cosmetic emulsions, where superior chemical stability ensures long-lasting preservative action. Solubility: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in aqueous shampoo formulations, where high water solubility allows uniform dispersion. Particle size: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in topical creams, where controlled particle size promotes consistent texture and efficacy. Melting point: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in solid soap bars, where a favorable melting point ensures stable incorporation during processing. Molecular weight: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in advanced polymer additives, where defined molecular weight enables predictable performance. pH compatibility: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in pH-balanced skincare products, where compatibility maintains formulation integrity. Shelf life: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in household cleaning solutions, where extended shelf life ensures prolonged antimicrobial activity. Low toxicity: 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% is used in pet care shampoos, where low toxicity ensures product safety for animals. |
Competitive 1-HYDROXY-2-PYRIDINETHIONE SODIUM SALT 95+% prices that fit your budget—flexible terms and customized quotes for every order.
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In our labs, producing 1-Hydroxy-2-Pyridinethione Sodium Salt at a purity of 95+% is about meeting real industry needs, not just ticking purity boxes. Over the years, we have refined this material’s synthesis to ensure strict control over byproduct formation during the final neutralization with sodium hydroxide. This attention, step by step, gives an end product that consistently delivers what chemists demand when working in applications where margin for error is tight.
To those of us behind the reactors, this compound by its nature offers stability in water and an easy integration into both aqueous and blended systems—features many clients count on in their own processes. Formulators in personal care and industrial sectors use this salt because of its reliable antimicrobial action and the way it controls microbial growth without contributing unwanted odors or residues.
In crowded chemical supply chains, genuine differences come from production insights. This particular grade, kept above 95% purity through careful recrystallization and process monitoring, keeps residual sodium and water content well within usable ranges. Chemists often focus on purity but overlook how trace residues or slight process drift can spoil final blends or lower shelf life in specialty shampoos, coatings, or metalworking fluids. This is where our approach, borne out of long production experience, makes a direct impact.
Other sources sometimes offer similar material labeled at comparable purity, but actual impurity levels—like sodium sulfate byproducts, excess base, or inconsistent crystal size—can undermine downstream performance. During manufacturing runs, the team pays close attention to washing steps and drying rates to avoid caking or clumping, which makes subsequent dissolution easier on production lines.
Consistency matters. When large batches go awry due to variable raw material quality, every subsequent user down the line suffers. We’ve learned the hard way that keeping iron and other heavy metal contaminants to a minimum protects formulations, especially where color stability or prolonged shelf life is required.
See any batch of 1-Hydroxy-2-Pyridinethione Sodium Salt leaving our plant—each one reflects multiple internal discussions about solvent selection, material transfer speeds, and packaging methods. Over time, switching to denser sealing for sacks and drums made a difference by limiting ambient moisture pickup during transit, especially in humid climates. Some customers use this compound in rinse-off formulations and care about clumping and residue; we've seen reduced return rates and clearer feedback since revising our packaging and shipping practices.
Personal care manufacturers lean on the antimicrobial properties for dandruff control, using the sodium salt’s water solubility to avoid grittiness or insoluble flecks. In industrial settings, metalworking fluids rely on the broad microbe-control spectrum, and fluid stability depends heavily on the absence of unreacted impurities. Sometimes, even a 1% impurity gap calls for expensive troubleshooting later—something we’ve seen time and again when companies try lower-cost supplies.
Supporting large-scale formulators, we’ve heard from engineers who point directly to filtration difficulties with off-brand salts. Our adaptation included a finer grind and close attention to free-flowing properties to reduce clogs and downtime—an improvement that came from customer-side collaboration rather than mere paperwork. Feedback cycles like this led to modified drying curves and resulted in powder that stores well in variable conditions.
At each stage, from raw pyridine derivatives sourcing to final drying, we record every tweak and variation. Actual measurement of active content, done with in-house titration against certified standards, drives batch release. For our sodium salt grade at 95+%, analysts regularly verify that moisture stays below strict internal thresholds because active users downstream rely on a free-flowing, rapid-dissolving powder that disperses evenly in water. With precise control over pH and particle size, we’ve sidestepped issues like unwanted precipitation or phase separation in finished products.
Heat control is vital because uncontrolled temperature spikes during synthesis can drive up impurity levels. During critical synthesis steps, operators ramp temperature gently, trading energy savings for more reliable structural integrity—sacrificing speed for repeatability. Lessons here came not from theory, but from loss of grade in early scale-ups and the costs those missteps carried.
As chemical manufacturers, we’ve also had to balance between cost and quality. Extracting the sodium salt at this purity level draws higher input costs, but the payoff comes downstream, where customer complaints about yellowing, odor, or inconsistent suspension drop away. Here, investment pays back in reduced rework, fewer technical calls, and longer-standing business relationships.
Not every batch labeled “1-Hydroxy-2-Pyridinethione Sodium Salt 95+%” delivers what product developers truly expect. Many market variants cut costs on finishing, resulting in high moisture levels or elevated sodium byproduct. In industrial plant runs, this ends up causing gels or sludging—sometimes noticed only months after production.
Technical teams at customer sites often point to our salt’s better color (off-white to light yellow) and lower dusting loss, which matters for both hygiene and yield management. Competing variants with similar documentation often display visible greying or off-odors that point back to shortcut steps in drying or incomplete filtration. Trouble-shooting with downstream users showed the most troublesome batches had both higher caked material content and variable solution pH, all due to poor control in manufacturing sequence.
Over the years, our process changes have focused on outcome, not just specifications. Yes, purity matters, but so does every trace adjustment in filtration, drying, and packaging. Customers in regulated markets—think cosmetics with tight impurity standards—tell us that even tiny residues excluded from declared analysis can make or break their registration. That knowledge informs our daily work.
Application environments differ widely, yet 1-Hydroxy-2-Pyridinethione Sodium Salt finds a role across them because the molecule performs under rigorous demands. In household and cosmetic formulations, formulators prize its broad and reliable effectiveness against yeast, bacteria, and fungi. We have seen personal care companies gravitate toward our grade after encountering pigment shift or instability using unknown supply chain sources.
In paints and coatings, field failures due to microbial growth rarely trace visibly to their root sources, but close analysis often reveals elevated impurities or variable granule composition—a lesson learned through hands-on support of several client reformulations. Learning from these episodes, we set up extra checkpoints, including sieve analysis and in-process color comparison, to catch potential trouble signs before the product leaves the plant.
Users in process industries highlight the difference a steady supply chain makes. With our salt, downtime due to raw material switching or unexpected formulation incompatibilities shrinks, and many customers now include our batch reference as a locked input in their SAP and QC systems. For us, this translates to a responsibility—every drum leaving our facility stacks up against years of previous deliveries, and any shortfall will stand out as soon as it arrives on a customer’s dock.
On the surface, 95+% seems like just a number, but experience says otherwise. The repeated lesson: impurity profile, dissolution rate, bulk density, and moisture—none can be swept aside by certificate of analysis alone. Only consistent operational focus keeps these within the tight windows required by end users working under regulatory oversight or real-word process constraints.
Some cases brought to us involved competitors’ products with a scattered consistency profile—batches swinging from 92% to over 96%, with various flow or cake issues that sidetracked production lines. In these settings, quality control goes deeper than spot-checking, and we’ve built in redundant batch sampling and auditing to preempt supply variances. This discipline, earned across hundreds of campaigns, supports our claim for true consistency beyond label claims.
Technical managers tell us the difference shows up in plant efficiency and in the number of late-stage trouble tickets that their teams have to tackle. Less time chasing down the source of a discolored batch or off-odor means more time actually running operations or developing new products. For us, feedback cycles are not just formal audits—they bring new technical requests, often about secondary properties like flowability or dust control. Our ongoing investment in antistatic drum liners came not from a management directive, but from repeated requests from packaging staff struggling with fine powder losses. Direct engagement enabled us to implement improvements that matter in daily practice.
It’s not unusual for product managers to trace a single return or complaint across three time zones, only to discover a minor deviation in sodium content or a rogue shipment trapped too long in a humid port. Stories like these shape how we approach process adaptation. Adding humidity indicators to secondary packaging and revamping shipping recommendations didn’t grow from theory—they came from hands-on troubleshooting and seeing the difference that on-point packaging and storage make for shelf stability.
In the last five years, regulatory and market trends shifted toward more sustainable and safer chemistry. As the demand for lower-toxicity preservatives and biodegradable actives expands, 1-Hydroxy-2-Pyridinethione Sodium Salt’s low usage levels and proven profile fit industry goals. Using this molecule smartly means less chemical load shipped and less risk to operators during manufacturing and use.
Inside our own plant, handling safety is a first order concern. We redesigned dust abatement controls during powder filling and batch transfer to protect workers from unnecessary exposure. Low-dust grades now account for a significant share of our output—a fact that came from a persistent focus on safety observations rather than management edict. Over time, small adjustments to batch blender speed and improved filter maintenance practices added up to both better staff safety outcomes and a cleaner final product.
Waste minimization, another growing priority, guides internal process tweaks. We recover mother liquors and minimize water use during washing cycles, both to cut raw input costs and to align with rising environmental expectations of our largest customers. These incremental moves away from wasteful practices have become integral to the overall production culture in our facility.
Day in, day out, as a manufacturer facing both rigorous market and regulatory expectations, we keep our focus on more than chemical metrics. Batch control, staff training, customer feedback, process uptime, packaging, and traceability—each matters when delivering a reliable supply chain for 1-Hydroxy-2-Pyridinethione Sodium Salt at this purity. The difference from other products, here, lives in the details: process steps honed through feedback and troubleshooting, not shortcuts; real investment in packaging; and constant two-way communication with formulators and technical staff who use the product to solve tangible problems in the field.
Our team maintains process transparency and regularly shares data-driven insights with users—a tradition that has kept our material trusted in critical formulations over the years. In a sector often racing to meet new compliance and sustainability expectations, well-made, consistently verified material still serves as the foundation for progress. Our day-to-day operations reflect that belief, grounded in years of hands-on work and real industry impact.
