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HS Code |
899061 |
| Chemical Name | Cuprous Chloride |
| Chemical Formula | CuCl |
| Molar Mass | 98.99 g/mol |
| Appearance | White or off-white powder |
| Melting Point | 426 °C |
| Boiling Point | 1490 °C |
| Density | 4.14 g/cm³ |
| Solubility In Water | Slightly soluble (0.0062 g/100 mL at 20 °C) |
| Cas Number | 7758-89-6 |
| Odor | Odorless |
| Crystal Structure | Zinc blende (cubic) |
| Ph Aqueous Suspension | Neutral |
| Stability | Stable under normal conditions, oxidizes in air |
| Color In Air | Turns green due to oxidation to CuCl2 |
| Refractive Index | 2.033 |
As an accredited Cuprous Chloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Cuprous Chloride is packaged in a sealed, labeled 500g HDPE bottle, featuring hazard symbols, batch number, and safety instructions. |
| Shipping | Cuprous Chloride (Copper(I) Chloride) should be shipped in tightly sealed containers, protected from moisture and incompatible substances. It is typically transported as a solid under UN 2802 (Hazard Class 6.1, Toxic substances). Proper labeling and documentation per regulatory guidelines are required. Handle with care to avoid inhalation or skin contact. |
| Storage | Cuprous chloride should be stored in a tightly sealed container in a cool, dry, well-ventilated area, away from moisture, heat, and incompatible substances such as acids and oxidizers. The container should be clearly labeled and protected from light to prevent decomposition. Avoid exposure to air and humidity, as cuprous chloride is sensitive to oxidation and can convert to cupric chloride. |
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Purity 99%: Cuprous Chloride with purity 99% is used in high-purity catalyst preparation, where it enhances catalytic efficacy in organic synthesis reactions. Particle Size <10 µm: Cuprous Chloride with particle size below 10 µm is used in polymer composite manufacturing, where it improves dispersion and mechanical properties. Stability Temperature 200°C: Cuprous Chloride with stability temperature of 200°C is used in gas purification systems, where it maintains effective hydrogen chloride absorption at elevated temperatures. Molecular Weight 99 g/mol: Cuprous Chloride with molecular weight of 99 g/mol is used in brass etching processes, where consistent molecular weight ensures uniform etching depth. Melting Point 425°C: Cuprous Chloride with a melting point of 425°C is used in high-temperature metallurgical fluxes, where it provides thermal stability during metal refining. Free-Flowing Granule Form: Cuprous Chloride in free-flowing granule form is used in industrial inorganic synthesis, where it allows precise metering and homogeneous mixing. Assay ≥98.5%: Cuprous Chloride with assay greater than or equal to 98.5% is used in hydrocarbon purification, where high assay minimizes contamination risks. Low Moisture Content <0.5%: Cuprous Chloride with low moisture content below 0.5% is used in photo-chemical reagent preparation, where reduced water content prevents unwanted side reactions. High Surface Area >15 m²/g: Cuprous Chloride with high surface area above 15 m²/g is used in activated carbon impregnation, where increased surface area enhances adsorption capacity. Reactivity Grade: Cuprous Chloride of reactivity grade is used in organic halide synthesis, where reactivity grade enables higher conversion yields. |
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Cuprous chloride, often recognized by its chemical formula CuCl, doesn’t make headlines outside specialist circles, but for anyone working with metals, dyes, or electronics, it’s a name that matters. I’ve seen this compound in many labs, and its unique greenish-white color stands out on dusty shelves. What makes this chemical more than just another powder in a glass bottle? It’s about performance, reliability, and the quiet confidence users can have when they reach for it, whether it’s a dry, high-purity batch or a moisture-resistant granule.
Our model, C3002, reflects the shift toward more dependable materials in industry. Gone are the days of batch-to-batch surprises. Modern manufacturing controls the copper and chloride ratios with keen accuracy, so each shipment gives the same input, time after time. No one likes accounting for unknowns, especially in fine chemical synthesis. Here, Cuprous chloride pulls its weight as a consistent foundation for oxide removal, as a strong Lewis acid in organic chemistry, and as a key catalyst. I’ve watched it speed up reactions that would otherwise drag for hours. With up to 99.9% purity, the amount of residue or unwanted byproducts falls much lower than cheaper alternatives.
Anyone who’s handled both copper(I) chloride and copper(II) chloride knows the difference goes beyond a missing chloride atom. There’s a real shift in color, reactivity, and application potential. Cupric chloride (CuCl2) carries a vivid blue-green color and a higher oxidation state, making it more aggressive with organic materials and metallic surfaces. Cuprous chloride sits in a more reactive position for redox reactions, often giving users more control over delicate processes where selectivity matters. Some customers hunt for a catalyst that won’t dump excessive copper into their end product, especially in pharmaceutical or food-related applications. Cuprous chloride often wins there.
For solar cell developers, Cuprous chloride offers something that most other copper salts can’t touch: better control in the formation of copper-based semiconductors. I remember a conversation with a team specializing in thin-film solar materials. One engineer pointed out how trace impurities in other copper salts could derail months of work. With batch-certified, high-purity Cuprous chloride, the risk drops dramatically. That isn’t just marketing talk—it’s practical chemistry in action.
I once saw a plating shop struggle with ordinary copper(II) solutions. The operator complained about inconsistent finishes and strange tinting on finished parts. Their shift to our refined Cuprous chloride fixed the issue nearly overnight. The plating bath started producing gleaming, tightly bound copper layers. There was less murk, less need to treat wastewater for excess copper. The bottom line improved after just a few weeks. For engineers and technicians, those practical gains are what keep orders coming in.
In dye and pigment manufacturing, purity ranks highest. Cheap substitutes often introduce metal oxide specks, which interfere with coloring and cause rejection in quality checks. Experienced pigment makers know to look for a batch that lists every trace element, not just the primary copper percentage. Quality-focused firms now demand spectroscopic proof of purity, and our analytical reports leave nothing to chance. It’s not paranoia—it’s just the result of too many burned batches and lost revenue from off-spec goods.
One area where Cuprous chloride shines is organic synthesis. Many pharmaceuticals rely on delicate steps that introduce halogen atoms or create specialty compounds under tight temperature ranges. Cuprous chloride handles these roles quietly and efficiently. Unlike more unstable copper salts, it doesn’t break down as easily. Seasoned chemists appreciate its stability when they scale up reactions from the bench to plant size.
Synthetic rubber production is another application where quality Cuprous chloride makes a difference. As a scavenger for trace oxygen during polymerization, it prevents chain termination and boosts the overall yield of rubber. Teams on production floors monitor these variables obsessively, chasing marginal gains. Those small improvements in chemical performance add up over thousands of tons.
Gas purification often uses Cuprous chloride to remove carbon monoxide during synthesis gas processing. Hydrogen producers require reliable scrubbing agents, since CO contamination can poison catalysts in downstream steps. Some colleagues running pilot plants pointed out how switching to a high-grade model reduced maintenance stops. Their numbers showed fewer clogged filters and more consistent throughput. That’s a quiet but powerful endorsement.
Cuprous chloride, like all transition metal compounds, comes with real-world challenges. Its sensitivity to moisture means improper storage leads to gradual decomposition. I’ve seen containers left open in steamy summer labs, only to find them clumped together or tinged with green. Our C3002 model ships in robust, resealable packaging, outperforming thin plastic pouches that let in ambient humidity. Proper handling protects not only the compound, but also expensive downstream equipment from contamination.
Spills and dust control come up in every safety meeting. There’s a simple truth: dried powder drifts easily and requires vigilant housekeeping. Good plant protocols keep surface contamination minimal. I’ve heard from warehouse staff who prefer denser, pelletized forms of Cuprous chloride. Their experience shows that a product’s physical form makes a big difference during transfer and mixing. Less airborne dust means a safer, healthier working environment.
Even a small impurity in copper salts affects outcomes in electronics and fine chemicals. Discerning buyers look for products with ultra-low iron and lead levels, not just the guaranteed percentage of copper. Transparent, third-party tested documentation goes a long way to building trust, especially when supplying to regulated industries. Some of our longest-standing clients started out skeptical, ordering just a few grams at a time. Over the years, as each delivery matched stringent specs, those orders grew to metric tons.
I remember a QA manager walking me through their evaluation process. Each vendor must pass a series of rigorous checks—starting with elemental analysis and stretching to long-term performance trials. Those who pass stick around. Those who cut corners rarely return for a second chance. Consistency, in this business, earns repeat orders far more than a flashy sales pitch.
As markets for specialty chemicals become more international, scrutiny over heavy metals and environmental impact increases. Cuprous chloride buyers, especially those shipping to the EU or North America, pay close attention to compliance with RoHS and REACH standards. They also know the value of ISO-certified production. In my work with logistics and compliance teams, I’ve watched how updated documentation clears customs and regulatory hurdles smoothly. That saves companies hidden costs in storage delays or rejected shipments. Cuprous chloride supplies that check every box keep production lines humming on schedule.
Traceability brings peace of mind to buyers. From raw ore to finished powder, every step matters. Mines must certify copper purity at the source. Processing plants use real-time calibration on mixing tanks. Final packagers run lot-by-lot checks. This discipline trickles down to the customer, who receives a product with a pedigree they can verify. It’s not about chasing certifications for their own sake—it’s about proven consistency.
No supply chain runs perfectly. I’ve seen shipment delays caused by weather, new regulations, or unexpected demand surges. Open communication between supplier and client solves many problems before they escalate. Smart buyers establish backup sources and ask for regular samples. Supply chain mapping now ranks just as high as technical specs in the decision process.
Green chemistry is another trend that puts old formulations under the microscope. Stakeholders want processes that generate less waste and safer byproducts. Cuprous chloride, when produced responsibly, supports these goals by allowing for high-efficiency reactions and lower energy use. Forward-thinking producers invest in closed-loop recycling for process water and byproducts. The bonus: new environmental certifications open markets to customers with stricter sustainability targets.
Companies that thrive in this space stay flexible. Small-batch customizations, just-in-time logistics, and user-driven technical support all come from listening to customers. In recent years, more buyers ask for micro-granulated or specially coated forms to support automated batching or improved shelf life. Responses to these requests separate leading suppliers from the pack. Digital ordering, real-time batch analytics, and better EHS training make a tangible difference.
In one case, an R&D team needed a Cuprous chloride variant with extra-low sulfate content. Instead of dismissing the request out of hand, the supplier partnered with their technical staff to adjust the crystallization process. The trial succeeded, and that customer went on to file several patents using the new material. This story underscores the value of active collaboration.
Responsible sourcing also matters. In regions where mining labor remains unregulated, buyers ask suppliers about ethical practices. Suppliers riding the next wave of demand invest in audits and public transparency. It’s no longer enough to promise clean material; there’s a real push for social responsibility in every gram shipped.
At the practical level, anyone running a shop or a factory wants a simple promise: a chemical that does the job every time. For plating operators, high-purity Cuprous chloride means fewer rejects and less rework. Dyers and pigment makers get colors that match, batch after batch. R&D chemists scale up reactions with confidence, knowing that scale won’t introduce hidden variability. Environmental managers sleep better knowing their copper waste falls below safety thresholds.
From my experience, the hands-on difference shows up fastest during troubleshooting. If a reaction stalls or a part finishes with unexpected flaws, one of the first questions is always “Did the chemical batch change?” Reliable suppliers take that stress off the table. Over years, those small wins pay off as reputation and customer loyalty.
Trust doesn’t come overnight in the chemical industry; it’s built with every batch, every technical call, every on-time delivery. Field support and open feedback loops matter just as much as specs on a page. Companies that meet or exceed their promises earn clients who return with complex new challenges, not just reorders. Cuprous chloride stands as a case study in this model—a basic material can create real value, provided it’s supplied, supported, and improved with care.
While hundreds of competing suppliers can produce near-identical specifications, experience—on both sides of the transaction—sets real leaders ahead. Each suggestion from the plant floor, every QC data point, and each regulatory update gets rolled into the next production cycle. The partnership between end user and producer turns a basic chemical into a strategic resource. Those who invest in these relationships raise the bar for quality, traceability, and flexibility. Cuprous chloride’s story isn’t finished—it’s still being written by the chemists, engineers, and supply managers who trust it every day.
