|
HS Code |
688759 |
| Product Name | AR Copper Chloride |
| Chemical Formula | CuCl2 |
| Molar Mass | 134.45 g/mol |
| Appearance | Green crystalline solid |
| Purity | Analytical Reagent (AR) grade |
| Package Size | 500g |
| Solubility In Water | Readily soluble |
| Melting Point | 498°C |
| Density | 2.51 g/cm3 |
| Cas Number | 10026-24-1 |
As an accredited AR Copper Chloride 500g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging is a sturdy, amber plastic bottle labeled "AR Copper Chloride 500g," featuring hazard symbols and a tamper-evident seal. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Copper Chloride 500g: Approximately 20,000 bottles, securely packed on pallets, with proper labeling and documentation. |
| Shipping | The shipping of AR Copper Chloride 500g complies with safety regulations for hazardous chemicals. The product is securely packed in a leak-proof container, cushioned to prevent breakage, and clearly labeled with hazard warnings. Shipping requires a certified carrier and may be restricted to certain locations. Delivery typically occurs within 3–7 business days. |
| Storage | AR Copper Chloride (500g) should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area away from heat, moisture, and incompatible substances such as strong acids and bases. Keep the container clearly labeled and protected from direct sunlight. Ensure storage areas have appropriate spill containment and follow all relevant safety and chemical handling guidelines. |
| Shelf Life | AR Copper Chloride 500g typically has a shelf life of 3-5 years if stored in a tightly sealed container at room temperature. |
|
Purity 99%: AR Copper Chloride 500g with 99% purity is used in analytical chemistry, where it ensures accurate quantitative analysis results. Particle Size <50 μm: AR Copper Chloride 500g with particle size less than 50 μm is used in catalyst preparation, where fine dispersion enhances catalytic efficiency. Melting Point 498°C: AR Copper Chloride 500g with a melting point of 498°C is used in high-temperature synthesis, where stable phase retention is required. Stability Temperature up to 250°C: AR Copper Chloride 500g stable up to 250°C is used in inorganic material fabrication, where it prevents decomposition during processing. Moisture Content <0.2%: AR Copper Chloride 500g with moisture content below 0.2% is used in pharmaceutical intermediate manufacturing, where minimal water content avoids hydrolysis reactions. Solubility in Water 77 g/100 ml: AR Copper Chloride 500g with solubility of 77 g/100 ml in water is used in electroplating baths, where high solubility ensures uniform deposition layers. AR Grade: AR Copper Chloride 500g of AR grade is used in laboratory reagent preparations, where high analytical reliability is achieved. Bulk Density 2.54 g/cm³: AR Copper Chloride 500g with bulk density of 2.54 g/cm³ is used in solid-state reaction protocols, where predictable volumetric dosing enhances repeatability. |
Competitive AR Copper Chloride 500g prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615380400285 or mail to sales2@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615380400285
Email: sales2@liwei-chem.com
Flexible payment, competitive price, premium service - Inquire now!
In our years of working with copper chloride at the manufacturing level, certain qualities surface repeatedly as pivotal to its utility and reliability. Producing AR (Analytical Reagent) grade copper chloride involves attention to purity and repeatability, the sort of consistency expected by laboratory chemists and researchers across fields. Every batch reflects our team's careful control over both raw materials and processing lines.
Copper chloride, in its AR grade, serves as one of chemistry’s backbone reagents. Chemists count on its purity for accurate results, and any drift in quality usually distorts research outcomes. The commitment to meeting analytical grade standards flows through every stage, from selection of copper raw material to reaction monitoring, filtration, drying, and packaging. We run spectral analyses, impurity checks, and multiple point inspections, not as a marketing pitch, but because those steps protect our end users from costly reruns and ambiguous data.
The AR Copper Chloride product we manufacture is offered in a 500-gram package, aimed at laboratories with precise usage requirements. It comes as a fine green powder, fully characterized, and with documented purity levels. This batch size embodies practicality: it meets the volume demands of research or quality testing without unnecessary excess. The smaller portions help maintain reagent integrity, sparing the research process from issues linked to repeated atmosphere exposure during storage.
Laboratory researchers and quality technicians use copper chloride AR for titrations, catalyst preparation, and other analytical routines. Some analytical procedures leave little margin for error, and “good enough” purity does not meet the expectations set by AR grade. Precise color reactions, standardizations, and chemical dosimetry processes require full confidence that contaminating ions or secondary reactions will not sneak in due to the base chemical. That assurance only comes from manufacturing teams who understand not just the specification sheets, but the deeper chemistry behind contaminant control and reactivity.
Delivering a reliable AR copper chloride product demands more than sourcing pure copper. Our internal teams have refined multiple recrystallization and filtration techniques, targeting everything from iron traces to moisture content, which can affect both shelf life and chemical reactivity. Environmental control in our synthesis rooms and packing lines ensures that the reagent achieves and retains the stated AR standard by the time it reaches the user.
Walking through our facilities, anyone can see the time spent on recordkeeping, process validation, and batch-to-batch comparison. Some might call these extra steps excessive, but over the years, we have seen the damage a single contaminated lot causes downstream. Chemists forced to scrap days of benchwork or recalibrate sensitive assays lose time and trust. Our entire process, from the first input batch through to finished product, responds to that reality every day.
Working directly with copper chloride gives a front-row seat to its behaviors in different settings. Humidity in a storage warehouse, for example, can cause clumping or changes in powder texture, which not only affects handling but can hint at purity shifts. Our packaging team continually assesses seal durability, ensuring that each 500g bottle keeps what belongs inside protected from what’s outside.
Every chemist who relies on this product for analytical reagent functions has seen the consequences of corners cut in manufacturing. Lower-grade or poorly handled copper chloride introduces variables no researcher wants—unexpected colors, precipitates, or results that deviate from method standards. In our role as the manufacturer, each suggestion or request from a user on packaging, labeling, or reactivity guides the subtle tweaks impossible for distributors or third parties to appreciate. That direct communication with chemists drives design choices not visible on general supplier listings.
We have worked with institutions where scale, purity, and traceability all matter equally. Some university scientists need to retrace an experimental anomaly to a particular reagent lot. Every bottle of AR Copper Chloride we ship is traceable to its origin batch, with full documentation. Not as a box-checking exercise, but as a matter of professional integrity. That record-keeping often lets research teams pinpoint, correct, and avoid repeating errors tied to raw material sources.
Many suppliers market technical or industrial grade copper chlorides. Those serve distinct purposes in etching, pigment, or bulk chemical applications, but should not be mistaken as equivalents to AR grade. From our vantage point, the primary difference sits in the manufacturing priorities. Industrial grade focuses on process scale and cost control; AR grade focuses on control of trace contaminants, verified by independent assays and instrument-based analysis.
Educating users about the difference between AR and non-AR grades is ongoing work for us. We have seen cases where an industrial product finds its way into a precision lab method, only to cause erratic titrations or faulty endpoint readings. The visible symptoms—perhaps a slight cloudiness or color deviation in a solution—sometimes mask deeper issues. The real challenge often emerges months later, where a research program, unknowingly based on contaminated material, faces inconsistent results. For us, the role of the manufacturer is to draw clear, substantiated lines: AR copper chloride is for critical analysis, and users benefit from its premium only when those analytical needs exist.
We keep samples of every production batch, just as a safeguard, but that is only one part of what separates a manufacturer’s offering from bulk commodity copper chlorides. Commitment to the AR standard is reinforced by internal tests and third-party certifications, and by supporting users directly through technical questions. Our approach is built so chemists can focus on their experiments, not second-guess their reagents.
Not all copper chlorides behave the same in complex environments. A high level of control over the starting materials allows us to keep heavy metals and other interfering species at levels far below the requirements set by analytical grade standards. Even a few parts per million of unwanted impurities create headaches in redox reactions, synthesis, or sample preparation.
Over time, the team has fine-tuned how we dry and store our AR copper chloride. Moisture content that’s even slightly high introduces variability in weighing, and for gravimetric or volumetric analysis, that matters. Customers sometimes ask why moisture content features so prominently on batch records, and we answer with actual data—highlighting the effect on both handling and on chemistry. These operational lessons don't come from product datasheets, but from thousands of hours working with copper chloride under laboratory and plant conditions.
Feedback from experienced chemists drives updates to our process more than any single external guideline. For example, several research labs identified minor issues with powder flow when dosing for scale-up syntheses. In response, we altered our grind stage, refining the particle distribution and, as a result, reducing measurement errors tied to product caking. This iterative adjustment keeps our AR copper chloride tuned to the real-world rhythms of daily laboratory work.
We have also expanded our quality documentation in direct response to customer audits. University research teams looking to publish in high-impact journals often request additional confirmations of purity, including certification for specific ions or trace contaminants. By providing these addenda, our AR grade copper chloride not only simplifies compliance efforts but also bolsters confidence in research reproducibility.
Staying proactive on regulatory requirements forms another part of the manufacturing approach. As global standards evolve, especially in analytical chemistry, benchmarks for allowable impurities may tighten. Our own internal thresholds for contaminants rarely sit near the official limits—by the time a new rule is published, we have often already raised our standards. This provides peace of mind for users whose projects run years into the future, relying on a consistent, fully compliant reagent supply.
Over two decades, we've procured copper materials from reputable sources with clear provenance. Early lessons in traceability taught our team the importance of not just purity, but knowing the full path of each input from source to reactor. Routine verification ensures no unlucky batch of copper salt or acid, contaminated upstream, undermines our AR copper chloride integrity.
During synthesis, our chemists pay particular attention to reaction monitoring, watching for subtle deviations in solution color or precipitation rates that can signal off-target processes. Even small scale upsets can introduce impurities or alter the expected product morphology. Training our staff to recognize these early—through laboratory testing and experience with plant-scale synthesis—lets us catch and correct issues long before the product leaves our facility.
The bottling stage brings its own considerations. Any exposure to air can introduce moisture or contaminants, so the team spends extensive time designing and reviewing packaging options. The 500-gram containers we selected after years of feedback now incorporate high-barrier materials, reducing water vapor transmission, and employ seals specified for chemical durability rather than packaging cost. This helps ensure that what leaves our manufacturing line meets user expectations months later, even under high-turnover laboratory conditions.
Direct communication with the manufacturer means researchers gain access to decades of hands-on experience. Many users approach us directly to ask about batch characteristics, compatibility with specific methods, or long-term storage considerations. Unlike third-party sources, often limited to repeating product codes or certificate attachments, our technical team fields detailed, practical questions. Sometimes a chemist wants clarification on solubility at a specific temperature or the safest way to store an opened container in a humid lab environment.
We have helped users resolve challenging issues, such as residues left behind during filtration or the effect of certain atmospheric contaminants in open storage. Instead of simply replacing product as a gesture, these experiences have allowed us to redesign both our product and our guidance, giving end users actionable information supported by genuine manufacturing knowledge.
The reality in chemical manufacturing today is that not all AR-labeled products reach the bar set by international guidelines or customer expectations. Variability creeps in with each step removed from the original production process. Our vertical integration—maintaining control from sourcing through bottling—gives end users a clear line of accountability and reassurance.
Living at the frontline of chemical production, we see the way scientific progress and manufacturing experience interact. Complex batch issues that surface within our team rarely show up in supplier marketing materials, yet those lessons drive future improvements. Regular audits, both internal and by external independent bodies, show us where our copper chloride still has room to grow. Our culture rewards raising process concerns, even at the expense of short-term efficiency, if doing so keeps the AR grade standard intact.
Day in and day out, we track every deviation, tally every customer’s feedback, and integrate what we learn back into new lots. That long cycle—feedback from the research bench, process retooling on the plant floor, and third-party laboratory measurement—ensures our AR copper chloride remains trusted by both new and repeat users. Open lines to storied research facilities and small teaching labs alike keep us aware of changing needs and new challenges.
At the end of the day, the reputation of AR Copper Chloride 500g comes not from marketing claims but from user outcomes across academic, industrial, and regulatory applications. We keep every production metric transparent because we know that the full story, from raw input to finished bottle, matters more than a list of claims. Technicians relying on this product have written to us about time saved, results achieved, and sometimes about unexpected hurdles. Each story adds to our product’s development.
Long-term collaboration with technical users makes us invest in not just the quality of one batch, but in tightening each stage of the production process every year. That continuous improvement mindset helps guard against complacency. For users, that means their bottle of AR Copper Chloride comes with the assurance of decades of attentive, hands-on manufacturing experience—never just a label.
Bringing AR Copper Chloride 500g to laboratories worldwide depends on a feedback loop of concrete knowledge. Our team lives with the consequences of every manufacturing decision, from the handling of raw copper to the assurance of the product that lands on a user’s bench. That sense of shared accountability ensures the AR grade copper chloride stands up to the tough scrutiny of global research standards. The daily interactions with our technical users inspire new improvements, so each bottle serves not just a function, but a promise—one built on a foundation of experience, transparency, and responsible manufacturing.
