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HS Code |
844374 |
| Chemical Name | Lanthanum Carbonate |
| Chemical Formula | La2(CO3)3 |
| Molecular Weight | 457.844 g/mol |
| Appearance | White powder |
| Solubility In Water | Insoluble |
| Melting Point | Decomposes before melting |
| Odor | Odorless |
| Cas Number | 54451-24-0 |
| Density | 2.6 g/cm³ |
| Storage Conditions | Store in a cool, dry place |
| Common Use | Phosphate binder in medicine |
| Stability | Stable under normal conditions |
| Reactivity | Reacts with strong acids |
As an accredited Lanthanum Carbonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99.9%: Lanthanum Carbonate with purity 99.9% is used in pharmaceutical manufacturing, where it ensures consistent efficacy in phosphate binding for renal therapies. Particle Size <5 μm: Lanthanum Carbonate with particle size less than 5 μm is used in catalyst production, where it enhances surface reactivity and active site availability. Molecular Weight 457.84 g/mol: Lanthanum Carbonate at molecular weight 457.84 g/mol is used in specialty glass fabrication, where it improves refractive index and optical clarity. Melting Point 1000°C: Lanthanum Carbonate with melting point 1000°C is used in ceramic dielectric manufacturing, where it contributes to high thermal stability and performance. Stability Temperature up to 600°C: Lanthanum Carbonate with stability up to 600°C is used in battery electrode formulation, where it maintains capacity retention and cycling stability. Solubility <0.001 g/100 mL (in water): Lanthanum Carbonate with solubility less than 0.001 g/100 mL in water is used in water treatment, where it minimizes leaching and environmental contamination. pH (1% suspension) 7-8: Lanthanum Carbonate with pH 7-8 for a 1% suspension is used in laboratory analysis, where it provides neutral conditions ideal for sensitive phosphate assays. Specific Surface Area 10 m²/g: Lanthanum Carbonate with specific surface area 10 m²/g is used in emission control systems, where it increases adsorption efficiency of pollutants. Loss on Ignition <0.5%: Lanthanum Carbonate with loss on ignition less than 0.5% is used in electronics material processing, where it ensures composition stability during firing. Heavy Metals <10 ppm: Lanthanum Carbonate with heavy metals less than 10 ppm is used in high-purity reagent production, where it reduces contamination risk in analytical procedures. |
| Packing | White plastic bottle labeled "Lanthanum Carbonate, 500g," featuring hazard symbols, batch number, expiry date, and manufacturer's logo on the front. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Lanthanum Carbonate: 18-20 metric tons packed in 25kg bags or jumbo bags, secured for safe transport. |
| Shipping | Lanthanum carbonate should be shipped in tightly sealed containers to prevent moisture absorption. It is generally transported as a non-hazardous, stable solid at ambient temperature. Packaging must comply with local regulations. Ensure labeling for identification and store away from incompatible substances. Handle with care to avoid dust generation during transit. |
| Storage | Lanthanum carbonate should be stored in a tightly sealed container in a cool, dry, well-ventilated area away from incompatible substances, such as acids. Protect it from moisture and humidity. Store away from food and drink. Ensure the storage area is labeled and access is limited to trained personnel. Follow all applicable safety protocols and regulations when storing this chemical. |
| Shelf Life | Lanthanum carbonate typically has a shelf life of 2–3 years if stored in a tightly sealed container, dry, and cool conditions. |
Competitive Lanthanum Carbonate prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-petrochem.com.
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Tel: +8615365186327
Email: sales3@ascent-petrochem.com
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Working inside a production plant day after day, I see chemical ingredients come and go, each serving a new wave of needs in markets that keep evolving. If I’ve learned anything, it’s that practical results matter much more than promises. Lanthanum carbonate sits at an interesting crossroads. For some, it stands for innovation in healthcare and water technologies. For us who actually make it, we see a clear pattern: buyers want purity, consistency, and predictable behavior every time. Each factor depends on the choices made at the synthesis stage and, ultimately, on years of hands-on adjustment and observation.
Lanthanum carbonate, made in our facility, doesn’t behave exactly like the pharmaceutical compounds most people imagine. Our team has spent plenty of time working on the basics—starting from raw lanthanum oxide, controlling particle size, and getting the moisture levels right. All that comes out in the quality: a white, fine, nearly odorless powder with lauded chemical stability. We typically provide it as La2(CO3)3 with a lanthanum content consistently above 45%. Our batches meet or exceed rigorous testing for heavy metal contaminants, which matters for customers in water purification or dialysis applications where tight margins on metals count for a lot.
Turning out reliable lanthanum carbonate means getting the details right over thousands of cycles. Upscaling from pilot synthesis to ton-scale production exposed every weakness in our process, and we learned to manage issues like particle aggregation, dust control, and washing efficiency. Unlike many bulk chemicals, the hydration state in lanthanum carbonate influences stability, shelf-life, and processing ease. We make sure to control residual water at every step. Even slight changes in pH or process flow can drive unwanted side reactions, risking impurities that can force a batch downgrade or reprocessing. Every operator in our plant knows how quickly inconsistent carbon dioxide addition or lax washing can throw off filtration, leading to hard-to-remove byproducts.
We don't sell blends or modified grades, just the straightforward tricarbonate in its native condition. Customer labs regularly check our materials—high purity means less post-processing on their end and fewer unexpected results. In medical and analytical applications, that purity translates to trust. It’s rewarding to know the final use might be inside a water treatment plant or in clinical supplies, but for us, it all comes down to doing the basics right and documenting every step.
Some customers have asked about differences between our lanthanum carbonate and similar products from other countries or from distributors. As the manufacturer, the answer sits in details invisible to the naked eye. Supply chain transparency is one distinction: since we manage each input and run full traceability checks, we deliver predictability. We never relabel or blend. We know exactly where every kilogram comes from, with documented test results. Some firms trade lanthanum carbonate as a commodity, prioritizing quick turnover and bulk pricing. We focus instead on what the compound actually does in a customer’s lab or plant.
Our product goes through both chemical analysis and physical property measurements. We check for trace sodium, iron, and chloride—each can influence downstream reactions. Variations might seem small, but downstream users raise concerns about anything outside their regular profile, especially when large volumes are involved or when regulatory scrutiny exists. Every person on our production line is aware that high standards earned through reputation count for more than temporary margin improvements.
Lanthanum carbonate found its place in the medical world because it binds dietary phosphate, especially for patients with kidney issues who need careful phosphate management. We have supported dialysis equipment producers and medical suppliers over the years, adapting our material to institutional requirements. Any deviation—either in purity, granulation, or metal content—can affect final product registration and, by extension, patient safety. We’ve responded by refining our washing and drying steps, tightening our lot release criteria, and exchanging direct feedback with end users.
Beyond medicine, the market keeps shifting. Several regional water treatment plants rely on lanthanum carbonate as a selective agent for phosphate capture, helping fight eutrophication and keep lakes cleaner. The difference between a passable chemical and a reliable one isn’t about price per kilogram, but out-of-spec phosphorus reduction after installation. Those stories rarely make the headlines, but for the operators on the ground, the stakes are just as high.
Unlike some niche fine chemicals, lanthanum carbonate sits squarely in the zone of regulated, scrutinized production. We don’t have the option of cutting corners to chase volume. Assays for lanthanum content and carbonate fraction have to line up with reference standards, and major buyers come to our plant to audit the process themselves. Over the years, these audits helped change our mindset—from simply shipping product to deeply understanding what each parameter means in real-world use. If we fail on repeatability, our phone rings, and sometimes so do regulatory authorities.
It’s not uncommon for distributors to make broad claims about particle engineering or custom blending. From where we stand, product customization makes sense only if it brings measurable benefits for a defined process. Sometimes, tweaking particle size can improve filterability or solubility, but it also opens a door to inconsistency and greater quality control challenges. For this reason, we keep our offering focused: single-phase, high-purity lanthanum carbonate made to repeatable, documented specifications that trace back to every synthesis step.
Inside the plant, variables can turn a day’s production upside down. Water quality, for example, creates more challenges than most buyers realize. Municipal supply fluctuates, carrying unexpected ions or organic matter that react with lanthanum salts. We set up on-site filtration, re-check incoming water, and add in-line conductivity monitoring. This practical vigilance creates costs and extra hands-on work, but skips none of the pitfalls that can surface weeks or months later if overlooked.
Temperature holds another key to consistency. Carbonate precipitation reacts sensitively to thermal drift; cold snaps or hot weather in the plant influence the size and morphology of the product. Manual checking and plenty of batch records let us spot trends that automated control sometimes misses. These stories don’t make the glossy brochures, but anyone who’s done repeated large-batch synthesis will feel the headaches and surprises that routine data logging helps anchor. In the rare case a batch falls short, our focus shifts from blame to investigating details and retraining if needed.
The people working on lanthanum carbonate processing face a host of occupational safety issues—mostly dust generation, chemical handling, and the risks tied to acid and base neutralization. Rather than chasing paper compliance, our crew invests time in hands-on training and scenario drills. Lab analysis gets finished promptly, but real safety comes from experience: knowing how hot or reactive a batch will get when scaling up, and how to arrange storage for seasonal climate swings.
From an environmental perspective, proper treatment and disposal of wash waters, handling of byproducts, and minimizing the carbon footprint of our drying cycles all play a role. For years, we have had to adapt our operation to tighter emission guidelines, pushing us to upgrade filtration and consider closed-loop water systems. Customers with large, ongoing projects often ask for declarations covering every step—from sourcing of starting materials to emission profiles. We view these as practical challenges, not just paperwork.
Working in a manufacturing plant for years, it becomes clear that progress comes in stages: small, often invisible improvements matter far more than bold leaps. For lanthanum carbonate, advances in filtration, drying, and monitoring have delivered more reliable results than almost any raw-product substitution or shortcut. Technical expertise means learning from every failure and building checklists so that nobody repeats old mistakes.
On the customer side, we see growing calls for better flow characteristics and easier handling. Working directly with users, our plant occasionally tests new drying cycles or alternate feedstock grades to see how that affects downstream processing. Any new change gets backed by a sample batch, full analytical report, and documented feedback from those actually using the product at scale. This practical feedback loop pushes us toward upgrades in every cycle, not just for show but for real gains on the floor or at the final point of use.
The shelf life of lanthanum carbonate depends on both humidity control and exclusion from airborne contaminants. We learned a hard lesson about the importance of packaging years ago, after a batch absorbed excess moisture during a rainy season and lost flow properties. Today, we pack under low humidity, seal promptly, and label each batch with a unique identifier and production date. During handover, we double-check packaging integrity and storage advice. User feedback about product handling—stickiness, caking, or perceived color changes—always tracks back into our review process.
Storing lanthanum carbonate away from acids, direct sunlight, and temperature extremes preserves its solid state reliably. From a manufacturer’s perspective, these steps might seem obvious, but every missed detail affects the next user. The biggest differences in real-world application seldom show up on paper—they surface after delivery, as products meet unexpected climates, handling errors, or nonstandard mixing conditions.
The lanthanum carbonate market doesn’t move in sudden jumps. Shifts happen as more users come to understand which features actually influence their process—and which do not. As demand grows in pharmaceuticals and water remediation, new quality expectations emerge. More buyers check for even lower trace metal contamination, want detailed lot traceability, and ask for test results prior to shipment. Some even look beyond stated purity, verifying the actual chemical environment in their specific application to avoid hidden interactions. These stricter requirements raise the bar for every supplier, and as a producer, we address them head-on, never resting on “standard grade” claims.
Sustainability questions have grown sharper, not just in sourcing but in energy and emissions tied to each metric ton produced. We work to minimize waste and energy input by tightening cycle efficiency, upgrading plant equipment, and, where feasible, moving toward renewable energy for major processes. Progressive customers invite us into technical discussions early, requesting pilot lots to prove the value in their own context before mass purchase. Long-term partnerships come from mutual trust, but they also stem from frank discussions about challenges, delays, and occasional failures.
Being the manufacturer means listening to both the capabilities of our own teams and the evolving priorities of those who actually use lanthanum carbonate downstream. As fresh projects come in—from medical devices to municipal wastewater—the real requirement remains: deliver consistent, high-quality chemical product without hype or overstatement. We recognize that buyers trust us with sensitive operations, and every production cycle brings an opportunity to reinforce—or lose—that trust.
Years of hands-on production leave us with deep respect for every challenge lanthanum carbonate presents. Instead of promises, we offer transparent records, open technical conversations, and a willingness to troubleshoot together. No batch leaves our facility without the weight of that responsibility, and as we develop improvements, we expect scrutiny, requests for better documentation, and higher safety demands.
In the fast-changing world of chemical applications, credibility means more than just a data sheet. As users become savvier and regulatory standards increase, our commitment stays rooted in practical, tested experience—backed by process know-how, day-to-day vigilance, and science grounded in the real operations of those who rely on quality lanthanum carbonate.
