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HS Code |
279279 |
| Product Name | Ferrous Bromide |
| Purity | 98% |
| Chemical Formula | FeBr2 |
| Molar Mass | 215.65 g/mol |
| Appearance | white to light green crystalline solid |
| Melting Point | 676 °C |
| Density | 4.98 g/cm3 |
| Solubility In Water | soluble |
| Cas Number | 7789-46-0 |
As an accredited 98% Ferrous Bromide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 98% Ferrous Bromide is packaged in a tightly sealed, amber glass bottle with hazard labeling and chemical information. |
| Shipping | 98% Ferrous Bromide is shipped in tightly sealed, corrosion-resistant containers to prevent moisture ingress and chemical reaction. It should be transported in compliance with local and international regulations for hazardous materials, ensuring proper labeling and documentation. Store upright in a cool, dry, well-ventilated area, away from incompatible substances and ignition sources. |
| Storage | 98% Ferrous Bromide should be stored in a tightly sealed container, away from moisture and incompatible substances such as strong oxidizers and acids. Keep it in a cool, dry, well-ventilated area, and protect from physical damage. Store away from sources of ignition and in a dedicated corrosives cabinet if possible. Ensure proper labeling and restrict access to trained personnel only. |
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Purity 98%: 98% Ferrous Bromide with high purity is used in pharmaceutical synthesis, where it ensures minimal impurity interference and consistent reaction yields. Particle Size 10-40 μm: 98% Ferrous Bromide with controlled particle size is used in catalytic processes, where optimized surface area improves reaction efficiency. Moisture Content <0.5%: 98% Ferrous Bromide with low moisture content is used in organobromine compound manufacturing, where it prevents unwanted hydrolysis and maximizes product stability. Stability Temperature up to 200°C: 98% Ferrous Bromide with elevated stability temperature is used in high-temperature reduction reactions, where it maintains performance without decomposition. Solubility 95 g/100 mL (water, 20°C): 98% Ferrous Bromide with high aqueous solubility is used in water-based chemical treatments, where it allows rapid dissolution and uniform distribution. Melting Point 676°C: 98% Ferrous Bromide with high melting point is used in metallurgical processes, where it withstands processing temperatures for reliable reaction control. Bulk Density 2.9 g/cm³: 98% Ferrous Bromide with specified bulk density is used in powder blending for battery materials, where it supports homogenous mixing and consistent electrochemical properties. Iron Content 32% (w/w): 98% Ferrous Bromide with standardized iron content is used in pigment manufacturing, where accurate dosing delivers precise coloration. Bromide Ion Content 65% (w/w): 98% Ferrous Bromide with defined bromide ion content is used in laboratory synthesis, where assured bromide availability optimizes halogenation reactions. Residual Chloride <0.1%: 98% Ferrous Bromide with low residual chloride is used in specialty chemical formulations, where purity prevents side reactions and enhances end-product quality. |
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Ferrous bromide, particularly at a concentration of 98%, stands out for its clarity and reliability across several industrial sectors. The consistent appearance of a pale green crystalline solid gives it an unmistakable identity. In practical use, this high-grade compound shows a level of stability and reactivity that speaks directly to those who prefer materials that don’t cut corners. Every batch that comes off the line will echo the expectations of industries where minor deviations spell trouble. The model most suppliers provide is tailored for immediate integration into processes that put a premium on both durability and response time.
Purity holds the spotlight. The 98% grade reflects rigorous processing standards, screening impurities that could introduce headaches in downstream applications. Moisture content tracks low, usually under a percentage point, which means the product keeps longer and behaves as expected, regardless of storage conditions. Since industries like pharmaceuticals, photography, and even organic synthesis regularly call for consistency, a product that keeps its composition predictable over time earns trust in the eyes of plant managers and lab technicians alike.
Most users look for granule size that allows for easy handling, and this version of ferrous bromide answers that without excessive fines or dust. Packing in tightly-sealed containers, the material often resists caking and stays free-flowing. It slides out of the drum or sack like a reliable coworker ready to get the main task done. Density, melting point, and solubility figures fall in line with what the chemistry handbooks suggest. These elements matter in daily operations, as they affect reaction rates, temperatures, and the choices made downstream in the plant.
People often overlook ferrous bromide when talking about workhorse chemicals, yet it proves its worth in a variety of places. In the laboratory, it acts as a strong reducing agent and, under careful control, supports the creation of other valuable bromine compounds. Its use spreads through organic synthesis, where each percentage point of purity can tilt the success of a reaction in one direction or the other. Pharmaceutical chemists have seen this firsthand, using it to introduce bromine into more complex molecules. A trusted batch cuts time on repeated tests and lets teams move to the next bottleneck instead of circling back for troubleshooting.
Outside of the lab, old-school film developers know the utility of ferrous bromide in photographic chemistry. The compound comes into play during the development of black-and-white images, where its role as a sensitizer isn’t matched by many other salts. Even now, with digital photography everywhere, specialty labs lean on these established chemicals for archival or restoration purposes. This need for reliability over novelty shapes the purchase habits of those who see photography as both art and science.
On the industrial side, 98% ferrous bromide helps produce dyes and pigments. As someone who has seen textile plants in action, it’s no secret that standardized color production depends on precisely-tuned input chemicals. Slight impurity or inappropriate grain can change the shade coming off a dye bath, causing frustration from the shop floor to the end user. This highlights why companies involved in chemical synthesis or textile finishing look for steady supply chains and clear specifications. In fact, disruption in the quality or reliability of ferrous bromide inputs can set back batch production for hours or days, leading to both financial and reputational headaches.
Some users ask what sets the 98% grade apart from those rated a few points lower or higher in purity. The answer lies in balancing cost, performance, and compliance. Cheaper off-purity grades sometimes bring in more trace metals or moisture, which can spark unwanted side reactions, spoil catalytic processes, or jam production lines. In contrast, 98% ferrous bromide consistently demonstrates the ability to finish jobs without introducing mystery variables. From a hands-on perspective, the peace of mind of pulling open a drum and encountering the expected quality beats rolling the dice with lower-grade material.
Compared to alternative iron or bromine salts, ferrous bromide fills a very particular niche. Some may reach for ferric salts in an attempt to save money, not realizing how the different oxidation state can impact reactivity and end up requiring more process control down the line. In some chemical syntheses, even a subtle change like this puts the brakes on productivity. This is especially true in pharmaceutical environments, where regulations governing trace contaminants push buyers toward standardized, high-purity options like 98% ferrous bromide.
Environmental stewardship matters as well. Many processes using ferrous bromide at this grade manage to operate with less waste and fewer unexpected emissions, simply because off-grade products tend to carry along extraneous materials. Regulatory compliance, especially in jurisdictions with strict environmental laws, depends in part on the ability to prove input materials won’t introduce hazardous by-products. With higher-purity material, users avoid the legal and cost headaches associated with failed audits or contaminated waste streams.
Raw material selection changes the bottom line for those building value-added products. In dye and pigment synthesis, the wrong grade can wash out colors or weaken product stability. In organic synthesis, unreliable sources create extra layers of quality checks, driving up costs. 98% ferrous bromide, by comparison, builds trust through a proven track record of conforming to detailed chemical standards and supporting reproducible results. That’s not just marketing talk – it comes through in lab tests and the stories told by repeat buyers.
Sustainability rarely emerges as a buzzword among buyers of inorganic chemicals, but it sits quietly behind smart supply choices. Reliable 98% ferrous bromide can often be sourced with documentation that backs up ethical production practices. Well-run suppliers take initiative here, tracing raw bromine and iron sources and adopting closed-loop systems that recycle water and manage waste sensibly. Customers scrambling to meet environmental targets usually pay attention, especially when legislative pressure intensifies globally with bans and incentives.
Shipping and storage might slip under the radar until a drum arrives late or compromised. Because 98% ferrous bromide resists moisture uptake and minimizes cake formation, warehouse managers report less spoilage and cycling through stock more quickly. This avoids the “lost batch” phenomenon, where lower quality or less stable alternatives force disposal before use. Those running lean operations look for these details in supplier histories, aiming to keep waste low and material costs in check without risking a line stoppage.
For many, simplicity in use means fewer adjustments during process runs. The all-too-often invisible costs of tweaking reaction conditions, compensating for contamination, or running extra purification steps add up quickly, both on the budget sheet and in worker hours. A consistent grade of ferrous bromide smooths out these bumps, freeing staff to push performance boundaries instead of firefighting quality dips. Few plant managers want to have to calibrate for subpar chemicals in mid-shift – getting this part right lets everyone focus on optimization instead of basic quality assurance.
Handling and storage bring their own set of challenges with 98% ferrous bromide, just as they do with most bulk chemicals. While not classified as highly toxic, proper procedures are needed to stay ahead of dust inhalation or skin contact risks. Facilities that adopt up-to-date storage solutions–including dry, well-ventilated environments and sealed handling tools–report better long-term performance and fewer worker complaints. This investment in training and material handling goes a long way to ensuring smooth, incident-free operations.
End users sometimes worry about upstream supply chain stability, especially when global events shake commodity markets. Volatility in iron and bromine extraction can ripple through to price shocks or supply interruptions. The companies that thrive through these disruptions do so by building reliable relationships with a handful of vetted suppliers, frequently auditing and requesting up-to-date verification on practices, documentation, and inventory levels.
Substitution risk comes up from time to time, particularly in businesses under cost pressures. Some may consider switching to a related iron or bromine salt, hoping it will serve as a drop-in replacement. My experience working alongside purchasing and R&D teams showed me that these shortcuts rarely pay off in the long run. The extra hours spent troubleshooting downstream effects, recalibrating equipment, or testing for compliance always raise the overall cost. Trust built around proven performance beats theoretical savings every time.
Companies aiming to future-proof chemical sourcing look toward automation in quality assurance. Automated mixing and dosing equipment can tell if a lot of ferrous bromide varies too far from specification, stopping problems before they spread. In the next decade, digital traceability and real-time quality monitoring may become standard, putting pressure on all suppliers of specialty chemicals to raise their bar.
Usage data for ferrous bromide points to its established place in the market. According to the U.S. National Center for Biotechnology Information (NCBI), it plays a role not only as a precursor in synthesis but also as a component in certain corrosion inhibitors and specialty battery chemistries. These emerging uses give new purpose to a product originally associated mainly with the dye, pigment, and photographic industries.
Scientific literature notes the importance of purity in many of these roles. The “Journal of Organic Chemistry” has highlighted cases where suboptimal grades of iron and bromine salts botched syntheses, while chemical engineers writing in “Industrial & Engineering Chemistry Research” report consistent improvements to process efficiency and waste reduction tied to higher-purity starting materials.
Supply chain transparency is increasingly popular, especially for companies exporting final products to markets like the EU or Japan, where chemical traceability requirements have ratcheted up over the last five years. Evidence from industry case studies shows that procurement teams using digital tools to track materials from supplier to shipment reduce batch failures and regulatory issues by measurable margins.
On the sustainability front, organizations like the International Bromine Council have pushed for best practices around recycling bromine-containing waste. While not every supplier has adopted these yet, the leaders set an example. Ferrous bromide made to these standards arrives with more documentation and less environmental baggage, making a direct difference to customers with proactive ESG goals.
Many industries have dealt with the uncertainty of variable raw materials. One response has been to foster long-term agreements with a select few ferrous bromide producers, mandating not just price and delivery guarantees but also routine sampling and independent laboratory verification. This closes the gap between what appears on paper and what actually arrives on site. Teams who prioritize real-world testing find they gain more time for innovation and fewer late-stage headaches.
Worker safety improves through practical steps, not just compliance talk. Routine training on chemical handling, personal protective equipment, and response plans keeps accidents rare. Integrating fresh feedback from floor staff—people who actually open containers and work hands-on with the material—lets management adapt storage and handling protocols before problems escalate.
Cross-sector collaboration pays off when it comes to safety data and process best practices. Industry roundtables, peer benchmarking, and knowledge sharing drive up standards and lower risk. Those investing in upgraded, sealed transfer systems and smart monitoring equipment generally find their accident rates and process deviations drop, translating to real savings over time.
To reinforce the resilience of supply chains, operations teams increasingly run secondary sourcing experiments. These second- and third-string suppliers step in only after they’ve proven themselves through performance trials, documentation reviews, and background checks for compliance with both regulatory and company policy. This careful approach shields manufacturing teams from the worst fallout of market swings.
Success in industries using ferrous bromide isn’t about luck; it grows out of steady habits, well-chosen partners, and a commitment to doing things by the book. The 98% grade, with its transparent supply and time-tested reliability, stands tall as a key choice for those building products that matter. In the world of process chemistry, where every gram has a job to do, the right starting material powers growth as much as innovation or investment. Day-to-day, it means fewer unwelcome surprises, more consistent output, and less time chasing down quality issues.
For anyone working with chemical intermediates, the detail in sourcing and monitoring this compound becomes part of the overall quality culture. From the first sample to the last shipping batch, the differences in purity, handling, and paperwork set the tone throughout the production cycle. Skimping here almost always means chasing issues elsewhere.
Across industries—whether in the lab, darkroom, or factory—those who ask the right questions and demand accountability from suppliers set themselves up for the best kind of success. By investing up front in proven, high-quality ferrous bromide, teams can deliver on project goals and demonstrate a higher standard to regulators and customers alike. That’s what turns a simple chemical salt into a tool for building trust, efficiency, and resilience in a complex, competitive world.
