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HS Code |
842450 |
| Chemical Name | Niclosamide Anhydrous |
| Cas Number | 50-65-7 |
| Molecular Formula | C13H8Cl2N2O4 |
| Molecular Weight | 327.12 g/mol |
| Physical State | Solid |
| Appearance | Yellowish-brown powder |
| Solubility In Water | Practically insoluble |
| Melting Point | 230-235°C |
| Purity Pesticide Grade | ≥98% |
| Ph 1 Suspension | 5.5 - 7.5 |
| Odor | Odorless or slight odor |
| Storage Temperature | Cool, dry, well-ventilated place |
| Stability | Stable under recommended storage conditions |
| Mode Of Action | Molluscicide (snail-killer) |
| Usage | Pesticide for aquatic weed and snail control |
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 | The packaging is a sealed 25 kg fiber drum, labeled "Niclosamide Anhydrous (Pesticide Grade)," with safety warnings and handling instructions. |
| Shipping | Niclosamide Anhydrous (Pesticide Grade) is shipped in tightly sealed, corrosion-resistant containers to prevent moisture absorption and contamination. Packages are clearly labeled as hazardous and handled in compliance with local and international transportation regulations. Proper ventilation and temperature control are maintained during transit to ensure product stability and safety. |
| Storage | Niclosamide Anhydrous (Pesticide Grade) should be stored in a cool, dry, well-ventilated area away from incompatible substances such as acids and oxidizers. Keep the container tightly closed and clearly labeled. Store away from heat sources, direct sunlight, and moisture to prevent degradation. Follow all safety guidelines for pesticide storage, including restricted access and appropriate spill containment measures. |
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Purity 98%: Niclosamide Anhydrous (Pesticide Grade) with purity 98% is used in rice field aquatic weed control, where it provides effective elimination of invasive aquatic plants for improved crop yield. Particle Size 50 µm: Niclosamide Anhydrous (Pesticide Grade) with a particle size of 50 µm is used in granule formulation for fish pond snail eradication, where it ensures uniform distribution and rapid molluscicidal activity. Melting Point 230°C: Niclosamide Anhydrous (Pesticide Grade) with a melting point of 230°C is used in thermal-resistant pesticide applications, where it maintains chemical stability during high-temperature processing. Stability Temperature 45°C: Niclosamide Anhydrous (Pesticide Grade) with a stability temperature of 45°C is used in tropical water treatment systems, where it delivers consistent snail control performance under elevated environmental temperatures. Moisture Content ≤1%: Niclosamide Anhydrous (Pesticide Grade) with a moisture content ≤1% is used in the production of long-storage pesticide formulations, where it enhances shelf-life and prevents product degradation. Water Insolubility: Niclosamide Anhydrous (Pesticide Grade) with water insolubility is used for slow-release matrix applications in irrigation channels, where it provides sustained molluscicidal activity and reduced leaching. |
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Niclosamide Anhydrous, especially in its pesticide grade, carries a reputation among agricultural specialists for managing aquatic pests and invasive species. Anyone working in crop protection, aquaculture, or water treatment likely recognizes its role in limiting destructive snails, mollusks, and certain parasites that disrupt not only farming operations but also ecosystems. This product often comes in pale yellow to light brown crystalline powder, with purity levels intended to maximize performance in open fields and controlled environments. The anhydrous form avoids the pitfalls of unnecessary moisture content, reducing clumping and simplifying handling for farmers and pest management teams. In everyday use, this model aims to deliver predictable results where waterborne pests have got out of control and traditional measures have failed.
Most discussions around pesticides can drift too far on either science or regulation, but in the field, those technical choices mean the difference between minor pest decline and a proper solution. Niclosamide Anhydrous stands out for its targeted approach: farmers don’t want wide-spectrum products when only specific aquatic invaders need tackling. The pesticide grade isn’t just a label—it determines how the chemical interacts with water, stability in storage, and delivery method in the real world. From my own experience on rural farms fighting freshwater snail outbreaks, the right grade impacts not just pest control but also the downstream effects on crops, irrigation equipment, and even livestock health.
Many agricultural products claim compatibility with a variety of pests. Niclosamide Anhydrous works because it’s built around reliable chemistry, targeting the metabolic pathways in snails and certain parasites without broadly affecting beneficial species when properly applied. The product arrives in a consistent, fine powder form, usually with a high level of chemical purity—often greater than 98 percent. That purity ensures predictable mixing, stable dilutions, and no carriers or fillers that affect dosing. I have mixed plenty of solutions in muddy irrigation channels; a product that disperses evenly, without caking or floating, becomes invaluable. This is where the anhydrous property truly shines. Moisture in many pesticides leads to clumps, loss of active ingredient, or reduced shelf life. Anhydrous Niclosamide skips those issues altogether, keeping application straightforward and results on track.
Other pest control substances, like copper sulfate or molluscicide granules, have their place, but few can match the precision of Niclosamide Anhydrous in managing snails without collateral damage. Take copper-based formulas—copper can linger in the environment, attacking other aquatic life and accumulating in soils. Likewise, organic acids and certain botanicals promise lower toxicity but often fall short when heavy infestations hit. Reports from communities combating schistosomiasis vectors confirm that once-resistant snails push the limits of older, weaker formulas. I have visited rice paddies and irrigation ditches where farmers poured everything from homemade brews to aggressive synthetics into the water. Only with a refined, high-content anhydrous Niclosamide do they achieve the rapid knockdown that allows crops to recover and water flow to resume.
Working with Niclosamide Anhydrous requires a balance between lab-driven precision and boots-on-the-ground practicality. The fine powder allows for easy measuring and dissolves readily under standard mixing practices, even in muddy or silty water. Field teams value this quality because less time is spent tinkering with equipment, and more focus goes to accurate delivery. In my exchanges with water engineers and farmers both, one challenge comes down to minimizing environmental impact while maximizing kill rates on pest populations. This product, used according to instructed dosages, brings that balance. The lack of water in the anhydrous model makes it safer to store in humid warehouses—something folks in tropical climates know too well. Less caking, less loss to spoilage, and less risk of uneven application all add up to better resource management and less money wasted.
The environmental side of any pesticide story deserves real scrutiny. There’s a big difference between quick fix application and sustainable pest control. Product stewardship matters—responsible use ensures neither non-target organisms nor water sources suffer unintended harm. This is where the properly designed anhydrous model helps: precision application at low doses, and lower run-off concerns due to rapid binding in water systems. Careful monitoring from teams in rice-growing communities, for example, shows that with exact dosing rates and modern delivery systems, they can halt snail infestations without disrupting the aquatic ecosystem. Overuse or misapplication, on the other hand, brings the usual string of problems—off-target effects, resistance building up, or spills into nearby rivers.
Many of those working with agrochemicals have stories about ruined stock from damp warehouses, clumping powders that jam up spreaders, or late-night rushes to meet pest outbreaks after discovering an older product had gone bad. Niclosamide Anhydrous’s lack of hydroscopicity cuts down on much of this waste. It stores well, even in the inconsistent climate control of remote farms, and the packaging often features robust, moisture-proof liners. During the rainy seasons, this alone can mean saving whole batches that would otherwise spoil. Transport is less of a headache, because no liquid carrier means no spillage or freezing problems for those in colder regions. Even small-scale fish farmers and municipal water teams benefit—they can move manageable sacks of powder to isolated streams or ponds instead of hauling dangerous liquids.
Expertise in farming or water management rarely comes from manuals alone—it’s built from years in ditches and outbuildings, tracking what works when pests hit. Take one instance: after a severe snail crop infestation in southern rice paddies, farmers switching from bulkier molluscicide pellets to Niclosamide Anhydrous immediately saw improved pest loss figures. Crops rebounded, and fish in side channels survived due to careful dosing and targeted placement. On the flip side, I’ve heard from several operators who rushed their mixing—skimped on stirring or eyeballed dosages—and ended up with patchy control, proving that no product substitutes for good training and patience.
Niclosamide Anhydrous rarely works alone. Integrated Pest Management (IPM) now ties chemical controls like this product with biological and mechanical steps—trapping, crop rotation, or introducing pest-eating species. Farmers in East Asia combine precise applications with longer-term levee cleaning, while water works teams in sub-Saharan Africa rotate dosage schedules to prevent snail resurgence. This pesticide-grade formula aids these programs because it can be divided into many small, controlled doses, given its consistent purity and ease of handling. Teams no longer rely on broad-brush treatments, but on finely-tuned dosages linked to real-time pest monitoring. This means less chemical dumped and more transparency for communities worried about environmental or health impacts.
Trust in a product grows when authorities, scientists, and local users all back up what works in practice. Recognized research from both agricultural departments and independent labs reinforces Niclosamide’s safety profile compared to alternatives. The anhydrous pesticide-grade form passes strict quality checks, ensuring farmers or water managers get exactly what’s promised—a high percentage of active ingredient, which translates to both reliability in pest reduction and regulatory peace of mind. Stories from public health programs battling disease-spreading snails in developing nations often credit this product for breaking stubborn infestation cycles, especially where previous attempts using less refined alternatives failed to bring relief. Safety in storage and handling, combined with transparent labeling, increases both workplace safety and end-user confidence.
Beyond anecdotes, there’s a solid body of evidence supporting effective snail and aquatic pest management through Niclosamide Anhydrous. Field trials run by agricultural stations cite up to 90 percent reductions in mollusk populations with single, well-timed treatments. Parallel reports in aquaculture show clearer water channels, fewer dead zones in tanks, and rebound of desirable aquatic flora after removing infestations. Economic analyses from rice-growing regions indicate savings through lower frequency of reapplication and reduced labor when compared to bulkier granulated or liquid molluscicides. These saved resources feed back into farm investment, supporting further yield improvements or funds for newer equipment. Such benefits aren’t limited to large operations; smallholders appreciate the practical simplicity of a product that measures and mixes without specialized gear.
Niclosamide comes in many forms—wettable powders, granules, even slow-release tablets. The anhydrous form stands apart due to better storage, extended shelf life, and fewer contamination risks inside the bag. Any seasoned practitioner will recall times when a shipment arrived, only to open it and find clumps, mildew, or loss of potency due to trapped water. Pulverized, water-free product fights these common failures, even after storage in high humidity or delays in transport. It also means less reworking for users—no need to sieve, crush, or discard lumps before a critical treatment. In addition, the dry product leaves behind residue far less than some synthetic carriers in alternative formats. Workers with long exposure appreciate the reduction in airborne irritant dust or heavy chemical odors.
No chemical product offers a silver bullet. Some limitations remain with Niclosamide Anhydrous. Dense vegetation and organic debris can slow its action, forcing heavier dosages or follow-up treatments. Reliance on only one method risks resistance or pest adaptation. Overuse anywhere means higher risk to aquatic vertebrates, especially with persistent applications and heavy rains. Here’s where field experience pays off: routine water monitoring, clear records of pest resurgence, and tuning application intervals allow users to maximize results while reducing harm. Support from trained applicators and partnerships with pest biologists only strengthens those gains.
With evolving industry needs, Niclosamide Anhydrous now finds pathways in public health, fisheries, conservation, and municipal water management. Parks tasked with controlling invasive aquatic plant-eaters use selective doses to protect native flora. Aquaculture operators protect stocks from parasite-carrying snails that threaten entire harvests. In community waterworks, carefully measured treatments restore damaged channels and keep supplies safe from pests that might carry disease. What’s remarkable is the adaptability of the product across very different operational scales—from large national projects to smallholder fish ponds. Reports from environmental agencies emphasize the importance of exact controls and data-driven scheduling, both aided by the fine powder form’s ease of handling.
Researchers keep looking for combinations and improvements that make Niclosamide Anhydrous even safer and more focused. Encapsulation technologies and slow-release matrices, now in development, aim to further reduce off-target effects while lengthening control. Precision agriculture tools might, in the future, pair the classic fine powder with drones or automated applicators for even better targeting and resource tracking. What stays consistent is the base product’s dependability. Every user—from a rural rice farmer managing a seasonal outbreak to a municipal engineer in charge of clean waterways—counts on that reliability. Innovations will likely spring out of current challenges: maximizing effectiveness while shrinking the product’s ecological footprint and reducing user exposure risks.
From a boots-on-the-ground perspective, best outcomes come from respectful, smart use. Mix only the volumes needed. Follow local advisories and cycle treatments to break pest life cycles rather than overcompensate during outbreaks. Regular equipment cleaning, safe storage, and clear labeling reduce accidents and confusion among wider farm teams. Ongoing training—whether from agricultural extension workers, NGOs, or online communities—gives both old hands and newcomers the confidence to adapt as regulations or pest patterns shift. Open communication between suppliers, users, and regulators avoids confusion over new formulations or concerns from nearby residents. On several farms I’ve worked with, clear record-keeping, organized product storage, and routine check-ins with agronomists have turned pest control from a dreaded crisis response into a manageable, predictable routine.
Across the world, users of Niclosamide Anhydrous learn their landscape’s unique challenges, adjust mixing ratios, and adapt delivery for maximum results with minimum cost and risk. Reports from flood-prone regions emphasize the product’s resilience in damp conditions and the ability to keep stocks workable through stormy seasons. Community-led health projects in areas plagued by water-borne diseases count on predictable dosages and reduced side effects to win public support and improve participation. Reliability, practical mixing, and straightforward storage come up again and again in technical feedback—qualities that have earned Niclosamide Anhydrous its spot in the toolkit of serious pest managers.
While new products and discoveries continue to emerge, Niclosamide Anhydrous (Pesticide Grade) keeps a firm footing among pest control options for professionals who value measurable performance, ease of use, and a trusted safety profile. Field learning, combined with evolving science, continues to shape its use. Year after year, new applications and management strategies ensure that crop yields stay robust, waterways remain healthy, and resource waste stays minimal. Smart, careful use means reaping the benefits this product offers, and it all comes back to straightforward, honest approaches from those who depend on it most.
