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HS Code |
797730 |
| Product Name | Niclosamide Anhydrous Pesticide Grade |
| Chemical Formula | C13H8Cl2N2O4 |
| Cas Number | 50-65-7 |
| Appearance | Yellowish brown powder |
| Purity | ≥98% |
| Melting Point | 225-230°C |
| Solubility In Water | Insoluble |
| Molecular Weight | 327.12 g/mol |
| Mode Of Action | Contact and stomach poison |
| Usage | Molluscicide for snail control |
| Stability | Stable under normal storage conditions |
| Storage Conditions | Store in a cool, dry place |
| Toxicity | Moderately toxic to aquatic life |
As an accredited Niclosamide Anhydrous Pesticide Grade factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Niclosamide Anhydrous Pesticide Grade is packaged in 25 kg fiber drums, lined with plastic bags for moisture protection. |
| Shipping | Niclosamide Anhydrous Pesticide Grade is shipped in tightly sealed, chemical-resistant containers to prevent moisture and contamination. Packages are labeled per regulatory requirements and handled as hazardous material. Store and transport in cool, dry conditions, away from incompatible substances, with appropriate safety documentation and precautions to ensure safe and compliant delivery. |
| Storage | Store Niclosamide Anhydrous Pesticide Grade in a cool, dry, well-ventilated area, away from heat sources, direct sunlight, and moisture. Keep the container tightly closed and clearly labeled. Avoid storage near incompatible substances such as strong acids or oxidizers. Ensure storage facilities are secure and restrict access to authorized personnel. Observe all relevant regulations for pesticide storage and environmental safety. |
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Purity 98%: Niclosamide Anhydrous Pesticide Grade with 98% purity is used in aquatic weed management, where it ensures effective inhibition of aquatic plant growth and rapid degradation in water. Particle Size <40 µm: Niclosamide Anhydrous Pesticide Grade with particle size less than 40 µm is used in molluscicide applications, where it enables uniform dispersion and enhanced contact efficiency against target snails. Stability Temperature up to 60°C: Niclosamide Anhydrous Pesticide Grade with a stability temperature up to 60°C is used in tropical agricultural settings, where it maintains efficacy under elevated field conditions. Melting Point 225°C: Niclosamide Anhydrous Pesticide Grade with a melting point of 225°C is used in high-temperature granule formulations, where it delivers consistent thermal stability during processing. Moisture Content <0.5%: Niclosamide Anhydrous Pesticide Grade with a moisture content below 0.5% is used in formulation of wettable powders, where it provides prolonged shelf life and reduced caking. Solubility 0.1 g/L at 20°C: Niclosamide Anhydrous Pesticide Grade with solubility of 0.1 g/L at 20°C is used in slow-release aquatic tablets, where it allows controlled release and extended period of pest control. Bulk Density 0.35 g/cm³: Niclosamide Anhydrous Pesticide Grade with bulk density of 0.35 g/cm³ is used in dusting powder production, where it ensures improved flow properties and easier application. Residual Activity 30 days: Niclosamide Anhydrous Pesticide Grade with residual activity for 30 days is used in rice paddy snail control, where it provides long-lasting protection and reduced reapplication frequency. Decomposition Temperature 230°C: Niclosamide Anhydrous Pesticide Grade with a decomposition temperature of 230°C is used in thermally processed pelleted feeds, where it assures integrity and effectiveness throughout feed production. pH Stability Range 5–9: Niclosamide Anhydrous Pesticide Grade stable in the pH range of 5–9 is used in diverse water bodies, where it adapts to varying aquatic conditions without loss of pesticidal activity. |
Competitive Niclosamide Anhydrous Pesticide Grade prices that fit your budget—flexible terms and customized quotes for every order.
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Working in chemical manufacturing, we see every nuance of pesticide synthesis up close. Decades handling the technical demands of active compounds have shaped the way we approach every batch, especially those aimed at supporting food security and public health. Niclosamide Anhydrous, offered here at pesticide grade, reflects our commitment to craftsmanship, safety, and supply chain reliability. We don’t just process raw materials into finished goods; each production run draws on a deep understanding of agricultural science, regional pest pressures, and the shifting requirements from both regulators and our partners in application.
Manufacturing something like Niclosamide means more than scaling a molecule. Quality starts in cGMP-compliant reactors, but much depends on mastering details that only come from repetition. Over the years, we have refined our processes to achieve the right particle size—key for stable suspensions—and maintain a purity that safeguards crop and worker health. Our typical model offers Niclosamide Anhydrous with purity above 98 percent, which meets rigorous pesticide standards across multiple continents. Batch-to-batch consistency is real work in a chemical plant: not only reactors but also filtration, drying—down to how we handle the finished powder on the packing line in controlled environments with independent QA sampling.
Niclosamide, chemically labeled as 2',5-dichloro-4'-nitrosalicylanilide, is known for its molluscicidal action. In practice, this means direct application in aquatic rice paddy fields and waterways where snails (such as Oncomelania and Lymnaea species) act as vectors for parasites, including schistosomiasis. Why does this matter on the ground? Simple: untreated snail populations fuel human and animal infections, impacting rural livelihoods and increasing health system costs. The active kills target populations quickly after exposure, with a well-documented and predictable breakdown in soil and water—key for both farm safety and downstream ecosystems.
Most buyers—plantation managers, pest control consultants, and government procurement officers—focus on several non-negotiables: purity, particle size, moisture content, and shelf life. Our Anhydrous grade runs under 0.5 percent water, supported by Karl Fischer titrations on each lot. Moisture below this level reduces the risk of caking or ‘lumping out’ in the warehouse, making dosing and dispersion much more effective at the point of use. Targeted particle distribution between 5 and 30 microns ensures both rapid suspension in tank mixes and reduced dust formation—a benefit not only for machine calibration but also for the safety of the crew in the field.
Specifications pack meaning for working agronomists. Poorly controlled Niclosamide grades may mask impurities—chloride contaminants or trace metals—that interfere with tank-mix partners or raise soil toxicity. This is where a disciplined manufacturing approach matters. In our experience, traceability from raw incoming goods to outgoing finished product lets us identify not just “what went wrong”, but “how we keep it right” every time. Routine third-party validation and in-house chromatography protect the buyer; nobody wins when a bad batch enters a local canal system.
Market demand supports multiple forms of Niclosamide: anhydrous, monohydrate, and various formulated mixtures. Our focus on Anhydrous comes from feedback in actual field use. Monohydrate–the water-associated form–sees use in non-pesticide applications such as human or veterinary pharmaceuticals, but in pesticide-grade applications, extra water can mean more than just weight. Monohydrate crystals form variably and may introduce performance lag during field dispersion. More importantly, the added water content increases risk for microbial spoilage in storage—and after a season in a humid depot, this can mean whole losses for buyers on tight margins.
We keep Niclosamide Anhydrous at high purity and low moisture strictly for pesticide-style performance. Years ago, we ran customer trials alongside public sector agronomists, directly comparing monohydrate versus anhydrous in treating snail populations in Asian rice paddies. The Anhydrous logs showed faster dispersion, more predictable kill curves, and less sediment at the tank bottom. Water content also affects compatibility: tank mixes with surfactants or wetting agents operate more predictably without water of hydration bound into the active molecule. Downstream, application equipment—especially in small-holder agricultural operations in developing countries—demands trouble-free powder handling; A tank hopper jam from a lumpy product costs valuable hours and risks missing pest emergence windows.
Effective molluscicidal treatment using Niclosamide Anhydrous means focusing on dose accuracy and timing. We train applicators on how to measure, mix, and apply at recommended rates. In typical paddy field control regimes, dosages run 0.25–1.0 mg/L active in irrigation water, with application ahead of snail hatch cycles to prevent parasite transmission. This isn't only textbook knowledge, but a hard-learned insight from seeing how inconsistent application—too much, too little, too late—directly diminishes community protection programs.
In some regions, the local water hardness, temperature, and organic load will influence performance. Our laboratory supports direct field questions, helping agronomists adjust application schedules for their unique environmental needs. On top of this, powders delivered in high-humidity regions undergo extra stability testing; we avoid gimmicky coatings in favor of robust packaging and strict QA oversight at our plant.
We’ve seen firsthand that support and education on application best practices drive 20–30 percent reductions in needed retreatment, simply because field workers understand real-world mixing and timing. Bulk product reaches its fullest potential when users can rely not just on the label but on manufacturer experience—what worked and failed elsewhere, passed along through support and technical bulletins.
End users rarely see the inside of a chemical plant. For us, quality assurance runs far past formal audits. Years of production have shown that even a small deviation in process inputs—trace moisture in a blending tank, dirty pack-line, out-of-calibration dryers—leads to costly product failures. Human skill, not only automated controls, guides the process. Trained teams at the reactor, the centrifuge, the final drying step, spot irregularities that instruments sometimes miss.
We keep extensive process documentation and redundancy in our control systems, reflecting regulatory expectations and our own assessment of risk. No one benefits if cargo fails field QC or, worse, leads to ecological harm. Addressing these points goes beyond marketing; it sustains long-term relationships with customers who depend on every delivery to be right the first time.
We welcome field audit visits from buyers, NGOs, and even regulatory authorities; direct transparency has built trust. Evidence-based manufacturing—demonstrated by logs, retained samples, and shipment histories—speaks louder than glossy brochures. It’s this hard-earned track record that supports not only safe and efficient snail control, but the reputational risk for everyone downstream, from distributorships to farm cooperatives.
Niclosamide Anhydrous, at the scale we produce, fits into a much larger puzzle of integrated pest management. Global action to control vector-borne diseases relies on safe, reliable active ingredients. The pressure to minimize risk means frequent scrutiny from environmental agencies and public health organizations. Every year, we run compliance checks matching our processes against both local standards and those set by major oversight groups, including FAO and WHO guidelines for vector control chemicals.
We don’t treat this as hoops to jump through. We look at feedback from multi-year community health studies. Persistent organochlorines, for example, left legacies in many agricultural regions—runoff, bioaccumulation, food safety hazards. Niclosamide demonstrates rapid breakdown in aquatic environments, reducing risks to non-target species when used in line with best-practice guidelines. We update product labeling and usage certificates as national requirements move forward. Standing behind our product means more than a signed COA; it draws from ongoing research and response to real-world challenges.
We partner with local agronomists, offering technical support on field implementation. Proper calibration and environmental monitoring tools make sure treatment stops snails but not everything else in the ecosystem. A careless spill risks killing off beneficial insects or entering watercourses used for drinking. Our tech support team responds to incidents, bringing grounded, specific advice instead of generic disclaimers. Experience running outreach in places as far-flung as Sub-Saharan Africa and Southeast Asia attests to how serious the stakes are—what works in one watershed doesn't always fit elsewhere.
Niclosamide isn’t the only tool for molluscicide work, but its selective action and environmental profile continue to give it a favored place. Metaldehyde and copper-based products, for example, carry different toxicity risks and persist for longer in aquatic habitats. Many regions have shifted outright from broad-spectrum organophosphates after reports of harmful residue levels in both food crops and rural groundwater supplies. Our manufacturing philosophy values products with proven lifecycle safety—‘leave no trace’ is more than profit calculus, especially when our employees also live in the communities using our materials.
Beyond the chemistry, we minimize dust and off-gassing at every production stage, respecting plant workers’ health and reducing risks at the application site. We recall visiting a partner company that ignored proper powder containment: within months, local clinics saw worker respiratory complaints—and their insurance rates doubled. Modern containment and exhaust capture on our drying line help avoid these mistakes, drawing directly from years of on-site lessons.
Supply disruption over the last decade—trade tensions, raw material price spikes, and volatile logistics—has made sourcing reliable pesticides an ongoing challenge. The global pandemic, shipping bottlenecks, and energy supply interruptions all conspired to trip up manufacturers without deep reserves. Our facilities keep secure raw material contracts anchored in diversified supply networks. Emergency storage capacity allows us to ship within days, not weeks, even if outside conditions turn rough.
Back-up systems, from on-site generators to multi-modal shipping partnerships, keep our product moving. We review incident logs to see what can be improved: whether delays came from customs snags, unexpected labor shortages, or bulk vessel re-routing. Our best partners appreciate candor; the largest buyers check in frequently to hear operational updates—not just to tick a procurement box, but because their teams know that seasonality in pest control never waits for logistics snags to unjam.
Decades working with field staff taught us that making a great batch counts for only part of the job. We run regular feedback sessions, collecting information on product handling, mixability, waste reduction, and effectiveness under local field constraints. This feedback has prompted real change: modified packaging for better moisture resistance, re-tested shelf stability in tough climates, and on-demand technical insert sheets tailored to local languages or regulatory requirements. If something about the application doesn’t work, a field team leader usually shares it directly. Those comments cycle back to production, making the next batch closer to end-user needs.
Continuous improvement runs all the way up the supply chain. An example: field crews in tropical regions commented on early breakdown of traditional paper sacks. We invested in co-extruded foil laminates, which stop humidity ingress even during extended open-air storage. Similar actionable insights surface through our technical sales teams, whether it’s a switch in closure systems, a better palletization method, or powder flow properties for automated dosage machines.
It isn’t just about product survival, but predictable, safe performance. In areas where labor turnover is high or pesticide regulations remain in flux, stable packaging, clear labelling, and robust logistic chains become non-negotiable advantages.
The chemical sector must navigate between efficacy and environmental stewardship. We reviewed historical accident data, seeing that many incidents stemmed from corner-cutting—improper effluent treatment, uncontrollable odorous gas emissions, or mishandled waste. As a direct manufacturer, our facilities have invested in advanced wastewater scrubbing systems, real-time air-quality monitoring, and recovery/reuse modules at every stage where possible. Emissions controls operate continuously, not just during inspections; water use gets tracked by the cubic meter.
We run life-cycle assessments for the entire plant, weighing every energy input and discharge. There’s always room for new research—fermentation advances, process intensification, alternative solvents—yet core environmental controls remain non-negotiable. Auditors from overseas buyers review our hazard reduction logs directly; their standards often match the highest international frameworks.
Whether working with state procurement agencies, private farm groups, or multinational distributors, transparency helps close the gap between the plant floor and the field. Standing by our records, rapid communication channels, and clear batch histories sustains trust in tense moments—such as final clearance checks at customs or surprise in-field residue tests. Gray-market or unlicensed supply hurts everyone; we regularly support authorities with technical data to ensure counterfeit or mislabelled product stays out of the supply chain.
We don’t shy away from open discussion of problems—when a production hiccup or an out-of-spec shipment arises, a pragmatic, fact-based response accelerates solutions for all. End buyers tend to stick with manufacturers who don’t hide bad news or delay hard conversations. As global agriculture gets more interconnected, the value of genuine partnership—rooted in evidence and shared risk—only grows.
Niclosamide Anhydrous remains a staple in our line-up due to its proven potency and the feedback loop with users worldwide. Our R&D team runs continuous assessments: not only for incremental improvements but in search of new formulations adapting to local regulatory updates or specific ecosystem needs. Plans for encapsulated slow-release forms, custom flowable dispersions, and integration with digital application tools are underway, responding to trends brought by climate adaptation and digital agriculture.
Information coming from government pilot projects or charitable programs offers unique case studies—helping us sharpen both R&D and practical guidance. Sustained monitoring and analysis of field impact make sure the product’s performance holds up in changing climate and agricultural conditions. We work on training materials, video briefings, and local workshops. Sharing this accrued experience helps everyone downstream, from the largest cooperative to the smallest rural co-op.
As the world moves toward tightened control on agricultural inputs—whether on residues, supply chain transparency, or ecological health—our role as a manufacturer is to navigate between tradition and innovation, listening to the practical voices from the field and laboratory. The lessons learned through thousands of production runs shape every batch. Our commitment isn’t just technical—it’s grounded in the duty we share with farmers, community health teams, and food producers everywhere to provide chemical solutions that solve real problems, sustainably and reliably.
