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HS Code |
193682 |
| Chemical Name | Hydrobromic Acid (25%) |
| Chemical Formula | HBr |
| Concentration | 25% |
| Cas Number | 10035-10-6 |
| Molecular Weight | 80.91 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Pungent |
| Density | 1.17 g/cm³ (approximate, at 20°C) |
| Boiling Point | 126°C (solution) |
| Melting Point | -11°C (solution) |
| Solubility In Water | Miscible |
| Ph | Less than 1 (strongly acidic) |
| Storage Temperature | Store at room temperature, away from incompatible substances |
| Hazard Class | 8 (Corrosive) |
| Un Number | 1788 |
As an accredited Hydrobromic Acid (25%) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1-liter amber glass bottle with secure screw cap, labeled “Hydrobromic Acid (25%)”, featuring hazard symbols and safety instructions. |
| Shipping | Hydrobromic Acid (25%) must be shipped in corrosion-resistant containers, clearly labeled as hazardous. It should be handled by trained personnel, compliant with regulations for corrosive liquids (UN 1788, Class 8). Avoid exposure to heat or incompatible materials. Use secondary containment and ship with appropriate emergency response information. |
| Storage | Hydrobromic Acid (25%) should be stored in a cool, well-ventilated area away from sources of ignition and incompatible substances such as oxidizers and alkalis. Use corrosion-resistant containers made of materials like glass or certain plastics. Keep containers tightly closed and clearly labeled. Store away from direct sunlight, moisture, and heat, and ensure access to emergency eyewash and safety showers. |
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Purity 25%: Hydrobromic Acid (25%) with a purity of 25% is used in the synthesis of inorganic bromides, where high reaction efficiency is achieved. Molecular Weight 80.91 g/mol: Hydrobromic Acid (25%) with a molecular weight of 80.91 g/mol is used in pharmaceutical intermediate preparation, where consistent compound quality is maintained. Reactivity Grade: Hydrobromic Acid (25%) of industrial reactivity grade is used in the production of organobromine compounds, where rapid bromination reactions are facilitated. Assay 25%: Hydrobromic Acid (25%) with 25% assay is used in catalyst regeneration processes, where effective removal of catalyst poisons is ensured. Stability Temperature 15-25°C: Hydrobromic Acid (25%) stable at 15-25°C is used in laboratory reagent applications, where solution stability over time is critical. Colorless Appearance: Hydrobromic Acid (25%) with colorless appearance is used in etching electronic components, where visual purity ensures precise micro-structuring. Specific Gravity 1.19: Hydrobromic Acid (25%) with a specific gravity of 1.19 is used in the manufacture of dyes, where accurate blending ratios are maintained. Standard Solution Grade: Hydrobromic Acid (25%) of standard solution grade is used in analytical titrations, where reliable assay results are obtained. Chloride Content ≤0.02%: Hydrobromic Acid (25%) with chloride content ≤0.02% is used in high-purity metal processing, where contamination is minimized. Redox Grade: Hydrobromic Acid (25%) of redox grade is used in reduction reactions, where controllable redox potential enhances product yield. |
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Hydrobromic Acid at the 25% concentration stands out as a stable liquid with a long track record in manufacturing, research, water treatment, and refining. This particular blend balances reactivity and handling, making it a dependable choice for those who demand consistency. The acid’s deep roots in industrial chemistry go back over a century, but today’s product reflects far more stringent standards, with purity levels and performance capabilities that raise the bar for safety and efficiency. In my experience troubleshooting chemical supply chains, this concentration helps many facilities avoid the extremes of higher-concentration formulations without giving up the activity needed for strong results.
The industry long sought options that deliver predictable results in applications as varied as organic synthesis, catalysis, and pH control. Hydrobromic Acid 25% arrives in high-density polyethylene containers or compatible glassware, supporting both bulk-scale and bench-scale users. With a clear, colorless to slightly yellow tint, the acid’s low impurity footprint helps chemists achieve higher yields in bromination steps and other processes. This specification—the 25% grade—strikes a good compromise between the wage to risk ratio: concentrated enough for strong reactivity but dilute enough to transport and store with a lower hazard profile.
Chemists reach for Hydrobromic Acid when working in the pharmaceutical, agricultural, and specialty chemical industries. The 25% variant resolves a common problem I’ve seen: some reactions call for hydrobromic acid but run too hot or too violently when the acid gets stronger. In synthesis labs, the acid introduces bromide ions, acting as a precursor for many important organobromine compounds. This group includes intermediates for sedatives, flame retardants, and various active ingredients. At this concentration, lab staff gain more control over exothermic tendencies, reducing both risk and cleanup.
In plant settings, operators rely on hydrobromic acid for tasks such as hydrobromination and the production of inorganic bromides like sodium bromide or potassium bromide. Water treatment teams select this acid to adjust pH, enhance oxidation potential, and help manage residual contaminants. Many processes benefit when suppliers provide hydrobromic acid at 25%—it allows for easier dilution and safer handling compared to full-strength grades, which often demand extra engineering controls. In my consulting days, suppliers favored this product for its balance; it avoided numerous shipping headaches tied to higher concentrations.
Compared to hydrochloric acid or sulfuric acid, hydrobromic acid delivers a distinct chemical punch. Its higher molecular weight gives it a heavier feel in concentrated form, but the 25% product moves easily through pumps and piping. The acid’s bromide anion initiates reactions other acids can’t, playing a special role in organic halogenation that simply isn’t possible with chloride or sulfate ions. While some non-specialists view mineral acids as interchangeable, my time in chemical manufacturing drove home that hydrobromic acid sits in its own category for niche applications, from catalyst regeneration to custom reagent prep.
Not every project needs the same acid strength. Stronger hydrobromic acid—48% and above—costs more to manage, with increased fuming, volatility, and aggressive attack on many metals. The 25% blend manages to dodge most of those issues, providing enough acidity for technical work while sidestepping the corrosion rates seen with the 48% grade. That means longer life for tanks, valves, and seals, saving maintenance teams money and headaches. Methanol production plants and petroleum refiners often report fewer leaks and service calls after switching to the 25% concentration for non-critical additions.
Anyone working with hydrobromic acid must respect its reactivity and corrosive power. The 25% grade won’t eat through protective equipment as quickly as the higher strengths, but skin, eyes, and metal surfaces remain vulnerable. I’ve logged a few tense hours with leak containment crews, and I can say without any doubt that rapid cleanup is much easier and less costly when lower concentrations are on the floor. Building safety into every interaction—from pump selection to storage protocol—can be the difference between a smooth day and a lost one.
The storage story sets hydrobromic acid 25% apart from other aggressive acids. Acid-compatible plastic containers handle the load for months without deformation or leaching. Glass can also suffice for short-term use, as long as operators monitor for etching. Training teams learn that spills involving lower strengths produce less irritating vapor, reducing risk to nose and lung health. This aspect matters on days when an unexpected splash or broken valve threatens the workday—quick action and the right concentration keep accidents small.
Purity matters as much as strength. Hydrobromic acid at 25% often ships with fewer trace contaminants than more concentrated counterparts, mainly because lower strength means less opportunity for side-reactions or accidental forms of polyhalide formation during transit. Producers use this product with confidence in electronics, pharmaceuticals, and research because predictable impurity levels produce consistent results batch-to-batch.
Lab teams store this acid out of direct sunlight, in cool environments, and track shelf life with tight inventory controls. The shelf stability at 25% concentration holds up to months under good conditions. My own operations background shows that buffered supply rooms—proper ventilation, humidity control, and sealed stoppers—help maintain quality over time, reducing the need to throw away expensive stock.
Modern regulations for chemical production keep pushing operators toward safer, greener processes. Hydrobromic acid’s place in this equation comes down to responsibility in sourcing, transport, and end-of-life disposal. While the acid supports efficient bromination, the 25% grade restricts the total available bromide, making accidental release less severe for local environments. Water teams facing new discharge limits often turn to this strength, where treatment can neutralize the acid before it becomes an issue for waterways or wildlife.
Disposal isn’t as simple as pouring unused acid down the drain. Neutralizing and collecting rinse water, monitoring for trace runoff, and working with certified waste handlers becomes standard practice. Operators using the 25% product report greater ease with neutralization; lower acidity simplifies the use of basic neutralizers such as soda ash or dilute caustics. This reduces costs and makes compliance easier when local regulators pay a visit. In my own industry contacts, the trend leans toward intermediate strengths like 25% for new builds and retrofits targeting improved environmental scores.
Universities, contract research organizations, and R&D departments look for acids that mesh well with a variety of substrates, catalysts, and solvents. Researchers frequently share feedback about hydrobromic acid’s selectivity and manageable reaction rate at 25%. This lays the groundwork for breakthroughs in photochemistry and coupled catalysis, two areas where bromide ions play key roles in molecular rearrangements and functional group transfers. As the push for specialty polymers and custom drug molecules accelerates, having hydrobromic acid at this exact blend in the toolkit broadens experimental scope.
On the applied side, battery researchers leverage hydrobromic acid to prepare bromide electrolytes, while plastics manufacturers design new flame retardant materials with it. The 25% product wins out in pilot-scale batches, keeping costs down and safety margins up. I’ve seen test labs switch from 48% to 25% after running safety drills—lab staff report fewer incidents and a smoother process during scale-up. It’s not just about performance, but about inviting more people to innovate without unnecessary risk.
Problems occur when teams cut corners on chemical quality. Hydrobromic acid with off-spec concentrations or hidden metal impurities ruins entire production runs. The 25% concentration from a reliable source offers an answer, as better batch-to-batch uniformity means fewer surprises down the line. My view from years inside operations suggests that investing in quality acid translates straight into reduced downtime and lower total cost, not just better product.
Another issue arises with transportation and storage. Stronger grades of hydrobromic acid demand rigorous controls—tanks with lined interiors, sealed gaskets, regular inspections. The 25% grade lets small and mid-sized companies participate in bromine chemistry without investing in specialized high-strength containers. This lowers barriers for entry and expansion in a wide range of chemical markets.
Managing spill response takes careful planning. Facilities working with hydrobromic acid 25% need clear signage, trained response teams, and an all-hands attitude about leaks or exposure. The manageable reactivity and vapor pressure at this grade reduce the odds of employees suffering acute breathing issues. Techniques such as neutralization with calcium carbonate, followed by absorbent cleanup, contain most releases without escalating into a site-wide incident. In my own experience, disaster drills with the 25% solution lead to safer patterns of behavior and quicker response times compared to more severe acid concentrations.
As supply chains stretch across more borders, Hydrobromic Acid 25% forms an essential link for producers in Asia, North America, and Europe. The product’s lower classification makes customs clearance, emergency planning, and compliance reviews smoother at ports and warehouses. Quality grades like this travel miles without dramatic compositional changes, compared to more volatile or higher-strength acids that cannot safely weather rough shipping conditions. Global buyers from electronics to pharmaceuticals increasingly write specs calling for 25% strength—keeping processes consistent and logistically straightforward.
Regulatory landscapes in each country drive further use of this grade. Producers seeking to expand into North America often discover simpler Environmental Protection Agency reporting at this concentration, along with easier insurance coverage at ports and warehouses. From what I've seen, international shippers tend to prefer lower-hazard cargo, and insurance premiums for mid-strength chemicals compare favorably. Companies betting on export-driven growth can scale up with fewer regulatory bottlenecks, and shipping partners feel more confident taking on lower-hazard consignments.
Cost drives purchasing decisions, but hidden expenses lurk wherever handling hazards, regulatory complexity, and waste management hide. Hydrobromic Acid at 25% concentration keeps expenses transparent—lower costs for safety training, reduced maintenance spends, and fewer hour-by-hour disruptions. The acid’s reliable chemistry produces fewer failed batches, with less margin for error when dilution or addition rates fluctuate. The tangible savings stack up, and just as importantly, teams feel safer and more in control during day-to-day operations.
At this strength, the acid’s package size options—large drums for industrial users, smaller bottles for laboratory settings—let buyers match investment with usage. Waste streams shrink, and purchasing teams avoid the warehouse headaches of storing products far above their process needs. Purchasing patterns from a decade in logistics suggest the sweet spot lies in concentrations that ship easily, store safely, and deliver the reactive profile needed, all of which the 25% grade handles well.
Technical teams prize suppliers who provide both answers and adaptability. Hydrobromic Acid 25%, given its particular blend of reactivity and safety, brings with it a tight-knit community of support experts, industrial chemists, and plant engineers. Whether integrating into a new pharmaceutical campaign, scaling up a bromide production run, or troubleshooting water treatment plant chemistry, experienced support can keep things on track. I’ve found that more robust technical documentation and on-call expertise set high-purity 25% hydrobromic acid suppliers apart from those peddling less-focused offerings.
For quality assurance and auditing purposes, teams benefit when they can trace the product’s origins, storage history, and test records back to the source. Data-driven processes reduce rework, rejections, and workflow interruptions. This transparency now feels like a must-have, rather than a luxury, and hydrobromic acid at 25% matches those expectations thanks to the precise way reputable sources document, analyze, and ship each batch.
Hydrobromic acid fills a crucial slot in the world’s chemical toolkit, but using it responsibly has never been more important. More companies are setting meaningful environmental and health goals that go beyond legal minimums. In this environment, the 25% grade is gaining traction for a reason—lower impact, easier compliance, and a clearer view toward sustainable practice. I’ve watched aquaculture teams, for instance, make the switch in water disinfection and report better downstream results for ecosystems.
Looking ahead, sectors like renewable energy storage and precision medicine plan to use hydrobromic acid for emerging processes. They demand products that combine controlled reactivity with safe supply and ethical sourcing. By choosing the 25% blend, these innovators meet both technical and societal obligations. I think this approach represents not just where the market is now, but where it needs to go to keep the trust of regulators, investors, and the people who live near chemical plants or research centers.
Every shift working with acids creates an opportunity for knowledge transfer. In my early days, cross-training around hazard and spill management dramatically slashed the odds of mishap. Hydrobromic acid at 25% joins the list of core reagents new staff learn about. Workshops, on-the-job demonstrations, and process walkthroughs all help highlight the right PPE, handling techniques, and first aid responses.
Sharing lessons learned keeps teams from repeating costly mistakes. Documenting near misses, reviewing root causes, and giving front-line workers the authority to change procedures strengthens an organization’s culture. Trusted hydrobromic acid suppliers often offer seminars, user manuals, and refresher training aimed specifically at the 25% concentration. In my time leading process audits, these resources proved more important than any single piece of equipment or engineering control—the human factor always decides whether things run smoothly or drift into danger.
Choosing the right acid means weighing reactivity, safety, total cost, and environmental impact. Hydrobromic Acid 25% delivers a solution tuned to the modern reality—technically versatile, easier to handle, and better aligned with regulatory and social expectations. It’s not a one-size-fits-all answer, but it sets the pace for chemical stewardship. Every facility and every lab faces a unique mix of challenges, but those that select this grade of acid reap the benefits in more ways than one. Through smarter sourcing, safer practices, and a commitment to quality, hydrobromic acid 25% proves that real progress comes from measured, responsible choices backed by experience and evidence.
