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All Right Reserved
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HS Code |
122739 |
| Product Name | Acriflavine Hydrochloride |
| Chemical Formula | C14H14Cl2N4 |
| Molecular Weight | 325.20 g/mol |
| Appearance | Orange-brown powder |
| Solubility | Soluble in water |
| Melting Point | 220-223°C |
| Cas Number | 8063-24-9 |
| Synonyms | 3,6-Diamino-10-methylacridinium chloride hydrochloride |
| Storage Conditions | Store at room temperature, away from light |
| Usage | Antiseptic and bacteriostatic agent |
| Ph Range | 5.0 - 6.0 (1% aqueous solution) |
As an accredited Acriflavine Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Acriflavine Hydrochloride, 25g, is packaged in a sealed amber glass bottle with a secure screw cap and hazard labeling. |
| Shipping | Acriflavine Hydrochloride is shipped in tightly sealed, clearly labeled containers to prevent contamination and degradation. It is typically packed in compliance with regulations for hazardous chemicals, protected from light and moisture, and transported at ambient temperature. Appropriate safety documentation and handling instructions are included to ensure safe and compliant delivery. |
| Storage | Acriflavine Hydrochloride should be stored in a tightly closed container, away from light and moisture, at a cool room temperature (15–25°C). It must be kept away from incompatible substances such as oxidizers and strong acids. Proper ventilation is essential to prevent dust accumulation. Store in a dry area and ensure it is clearly labeled and inaccessible to unauthorized personnel. |
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Purity 98%: Acriflavine Hydrochloride with 98% purity is used in microbiological agar preparation, where it ensures reliable inhibition of Gram-positive organisms. Molecular Weight 327.85 g/mol: Acriflavine Hydrochloride with a molecular weight of 327.85 g/mol is used in fluorescent staining protocols, where it provides consistent nucleic acid identification. Melting Point 258°C: Acriflavine Hydrochloride with a melting point of 258°C is used in thermal stability studies of pharmaceutical formulations, where it maintains structural integrity under heat. Particle Size ≤10 µm: Acriflavine Hydrochloride with particle size ≤10 µm is used in topical antiseptic creams, where it enhances uniform dispersion and delivery. Stability Temperature 25°C: Acriflavine Hydrochloride stable at 25°C is used in long-term laboratory reagent storage, where it preserves chemical efficacy for extended periods. pH Range 5–7: Acriflavine Hydrochloride with a pH range of 5–7 is used in ophthalmic solutions, where it minimizes irritation and maintains ocular compatibility. Water Solubility ≥10 mg/mL: Acriflavine Hydrochloride with water solubility ≥10 mg/mL is used in aqueous solutions for bacterial culture inhibition, where it enables rapid and homogeneous distribution. |
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I remember the first time I read about Acriflavine Hydrochloride in an old pharmacology book on my university roommate's bookshelf. Back then, it sounded like one of those chemical names you might run across but never really get to know. Over the years, this compound turned up again and again in research journals, veterinary handbooks, and even in the corners of conversations with folks in public health. Its strong history, paired with its simplicity and adaptability, still catches my attention.
Acriflavine Hydrochloride stands out as an orange-yellow crystalline powder with a long record of practical use, especially compared to many newer, more complicated formulations. Unlike products chased for trends or fancy branding, Acriflavine Hydrochloride has held onto its spot by sheer reliability. The compound carries a molecular formula of C14H14ClN3 and a molecular weight close to 255.74. Current preparations focus on clarity, strength, and steady stability, offering batch-to-batch consistency that matters in busy labs or fast-moving clinics. The standard strength often hovers around 98% purity, a number that offers peace of mind whether used in industry, scientific research, or practical treatment.
Ask anyone who’s worked with classic antiseptics, and the difference becomes clear right away. Acriflavine Hydrochloride helps fill gaps often left by broader-spectrum synthetic products. This compound’s unique structure allows it to stand up under various conditions, functioning reliably as an antiseptic dye. In the veterinary world, you find it sprinkled into aquaculture tanks, controlling external bacterial infections on fish and amphibians. Hospitals used to lean on it too, keeping solutions ready for wound cleaning before antibiotics reshaped the treatment landscape. Even now, specialty clinics sometimes reach for Acriflavine Hydrochloride when battling resistant microorganisms.
No shortage of antimicrobial products lies within arms’ reach today, ranging from modern silver-based gels to iodine swabs and complex synthetic compounds. But Acriflavine Hydrochloride brings something they can’t always promise: a clear, time-tested action with a manageable safety profile. At low concentrations, it doubles as a staining agent, making it easier for researchers to pick apart cell structures in the lab. That’s not just nostalgia talking, either—the World Health Organization and top research teams have chronicled the impact of classic antiseptics like this one, especially in settings with limited access to newer drugs.
Real people use Acriflavine Hydrochloride for many different purposes. Fish breeders across continents still depend on it for fungal and bacterial challenges. Its gentle yet effective action appeals to those who watch margins closely, such as small-scale aquarists or scientists in teaching labs. In tissue culture work, particularly plant tissue culture, Acriflavine Hydrochloride helps prevent unwanted contamination from bacteria and some fungi. It slips easily into solution and does not cause excess browning of plant cells—a struggle for several alternative antiseptics.
My own encounters with Acriflavine Hydrochloride came first in the university’s microbiology lab. The instructor swiped a brush across agar plates and let us watch colonies light up, drawing attention to boundaries between healthy and infected tissue. Simple, transparent, and easy to interpret. For others, especially veterinarians working off the beaten path, a bottle tucked in the kit provides confidence when facing wounds in livestock or farmed fish. Even after the arrival of advanced antibiotics, Acriflavine Hydrochloride holds a seat for those who value straightforward, manageable interventions.
People often ask about the risks, and it makes sense. Acriflavine Hydrochloride deserves respect, just as any chemical does. Used in the right amount, it’s generally well-tolerated. High doses or careless handling can cause skin irritation or staining, and no one likes a bright orange patch stuck around for days. Medical teams have long recognized the need for gloves, eye protection, and sensible ventilation when large volumes come into play. Still, compared to harsher chemical alternatives—think phenol or strong oxidizing agents—Acriflavine Hydrochloride’s record feels reassuring.
I remember hearing from older nurses at a rural outreach program about their routine with Acriflavine Hydrochloride. It became part of the first-aid kit for wounds in places that medical trucks couldn’t often reach. They mixed a diluted solution on the spot, taking care not to overdo the concentration, and cleaned minor cuts or abrasions with results they could see and trust. You don’t run across many products that stick in people’s minds for that long, especially across decades of changing treatment guidelines.
Today, science never stands still. Newer products roll off the manufacturing line with glitzy marketing, promising better performance or reduced toxicity. Yet Acriflavine Hydrochloride has stuck around for good reasons. Laboratories regularly choose this compound when comparing the cost-benefit ratio of classic antiseptics versus more modern chemicals. For students, it brings down the barrier to hands-on biological learning. For professionals, reliability weighs heavier than marketing promises. Fewer compatibility concerns means it works with common buffers and media without fuss.
Some modern labs reach for Acriflavine Hydrochloride to differentiate cell structures and bacterial types during microscopy. Unlike fast-fading stains or complex dyes requiring long preparation, Acriflavine Hydrochloride dissolves quickly in distilled water, making preparation less of a chore. It marks nuclei and certain proteins with clarity. In genetic research, its intercalating properties help distinguish DNA from surrounding debris. As someone who’s spent late nights peering through a microscope, I appreciate how tried-and-true products like this can keep things simple without sacrificing results.
Anyone who’s walked the aisles of a medical supply warehouse knows the stack of choices never seems to shrink. Chlorhexidine, iodine, silver nitrate: each option has strong points. But cost, supply chain issues, sensitivity profiles, and risk awareness all factor into any real-world choice. Acriflavine Hydrochloride holds its own against these alternatives. Chlorhexidine carries a faint but real risk of allergic reactions. Iodine stains and sometimes triggers thyroid sensitivity. Silver nitrate delivers strength but at a cost, both financially and in terms of specialized storage.
This compound doesn’t promise miracles. Instead, Acriflavine Hydrochloride offers practical, predictable results and a track record that stretches back through two world wars and eras of scarce antibiotics. Not every product matches that history. Anyone responsible for large-scale aquaculture, public health outreach, or hands-on biological research knows value and dependability matter just as much as efficacy curves. The fact that Acriflavine Hydrochloride remains widely studied and mentioned in peer-reviewed articles only cements its place for those who prize experience over novelty.
Nothing on the shelf comes without challenges, and Acriflavine Hydrochloride is no exception. It’s crucial to remember the limits of its scope. Broad-spectrum antibiotics changed the face of modern medicine, offering tools that push past the reach of classic antiseptics in life-threatening infections. Regulatory updates and food safety standards now shape how and when this compound gets used in aquaculture—a shift worth noting for new professionals entering the field. Safe disposal techniques, awareness of environmental impact, and smart dosing keep its value high without risking long-term problems for people or aquatic ecosystems.
Over the years, the tide of antibiotic resistance pushed some clinics and fish breeders back toward classic compounds like Acriflavine Hydrochloride. Simple disinfectants play a role in rotation strategies, breaking up cycles of resistant bacteria and fungus. This isn’t just a theory; the Centers for Disease Control and Prevention regularly studies antiseptics as part of comprehensive resistance management strategies, making sure the next wave of stronger bacteria doesn’t emerge unchecked from overuse of modern antibiotics. Having alternatives in the toolkit—especially those with a reliable safety profile—makes a real difference for the future of public and animal health.
Research tells a story that stays fairly consistent over decades. Acriflavine Hydrochloride disrupts DNA synthesis in susceptible microorganisms, helping stop infections before they take off. This action grows less dramatic in the presence of heavy organic matter, so practical cleaning and realistic expectations stay important. Research teams have compared it to more modern antimicrobials and found that, while newer alternatives hit harder in some cases, Acriflavine Hydrochloride stays more approachable. Fewer allergic reactions, steady results, and manageable costs explain why professional guidelines still reference it in specialty cases.
Publishing houses still print studies on Acriflavine Hydrochloride’s function not just in human medicine, but in broader biosciences like aquaculture and agricultural research. This wide footprint reflects a real versatility. I think back to times reviewing data with fellow students late at night, arguing over which disinfectant would make the safest and most cost-effective choice for the department’s new aquatic tanks. Usually, Acriflavine Hydrochloride won out. The literature rarely revealed nasty surprises or red flags, and cost estimates from national suppliers made it feasible for the program’s tight budget.
Many professionals find themselves facing tricky decisions about chemical use, not just from a health and safety perspective but also from financial and environmental angles. Acriflavine Hydrochloride can make those hard choices simpler in a few ways. Smaller, regular orders fit most budgets, and the shelf stability rivals that of more expensive options. Still, it pays to train anyone handling the compound in its risks and proper dilution—no one benefits from careless spills or mistaken concentrations.
Ongoing education in schools and hospitals helps ground the use of Acriflavine Hydrochloride in real-world data. Hands-on demonstrations in proper measuring, mixing, and application keep accidents rare. Updated material safety guidelines, reviewed with staff and students once or twice yearly, prevent out-of-date habits from slipping back in. This practical, routine focus lowers risk and ensures everyone gets the real value out of well-established compounds. Waste protocols, including neutralization or careful disposal, prevent unnecessary impacts downstream in water systems or clinics.
Environmental conversations deserve special attention here. Acriflavine Hydrochloride breaks down over time in the presence of sunlight and oxygen. While its environmental load remains much lower than many sophisticated pesticides and fungicides, large-scale use in sensitive habitats still demands caution. Monitoring programs run by universities and government agencies track active residues in groundwater or soils, aiming to catch small issues before they grow into problems. Encouraging shifts toward closed-system aquaculture, recycling disinfectant solutions, or using lower concentrations where possible are steps that blend efficiency with responsibility.
Too often, commentary on long-used chemicals devolves into marketing copy or hand-waving. I prefer to stick with what research backs up. Peer-reviewed studies collected from university libraries and databases show Acriflavine Hydrochloride’s continued value in basic microbial control. Its long shelf life, consistent staining properties, and manageable side effect profile stand the test of time. Professional guidelines published in the last ten years still mention it for use in specific veterinary and aquaculture roles.
Veterinarians working in challenging environments recommended it in case studies from across Asia, Africa, and North America, pointing out the high cost or low availability of newer alternatives. Fishery managers detailed improved survival rates among fry and fingerlings following clear protocols for Acriflavine Hydrochloride treatment, leading to more stable local economies. Scientific conference proceedings continue to discuss its actions in cell biology. These aren’t just endorsements—they reflect a real-world pattern where experience and evidence walk side by side.
Anyone who’s spent time in the clinical or research trenches learns to appreciate products that work without drama. Acriflavine Hydrochloride doesn’t need grand claims or complicated instructions. It rewards those who respect the details of proper dilution, good hygiene, and sensible handling. The handful of times I watched students troubleshoot fungal blooms in culture jars or veterinarians clean wounds in rough weather alongside livestock, it seemed Acriflavine Hydrochloride offered peace of mind otherwise hard to come by.
People in busy settings look for products that get the job done the first time. Poor results or repeated application cost time and money. Acriflavine Hydrochloride earns its spot precisely because it meets those everyday needs, crossing boundaries between research labs, fish breeders, clinics, and fieldwork. If you’ve ever lost work to contamination in a science project or watched a patient heal steadily because of smart antiseptic use, you know the value of predictability.
Supply issues, pricing fluctuations, and regulatory changes can occasionally affect access to Acriflavine Hydrochloride, as with any widely used chemical. Open communication between suppliers, end-users, and regulatory agencies keeps trouble at bay. Transparent ingredient sourcing, standardized quality checks, and batch tracking help clinicians and researchers trust that what arrives on the bench or farm matches the label. Broader discussions among fisheries, agriculture organizations, and healthcare coalitions should stay alive to protect both people and the environment from careless overuse or misuse.
Some advocate phasing out older compounds in favor of new drugs or alternative technologies, with the goal of continual innovation. That ambition plays an important role in science and healthcare. Still, dismissing well-understood classics like Acriflavine Hydrochloride risks breaking crucial links in the supply and knowledge chain. Many places cannot afford to switch over entirely to high-priced new solutions. Old hands in research, animal health, and field medicine continue to teach the next generation about flexibility, data-driven selection, and measured stewardship of all available resources.
Sitting down to write about Acriflavine Hydrochloride feels like chatting with an old friend—the type you forget for a while, then remember just when the need shows up. It doesn’t surprise or impress in the same ways as the latest headline drug or high-tech device. Yet, steady compounds like this one stay woven into the daily fabric of real work, where value comes from solid use and simplicity. Professionals working under time or budget strain, students hoping for clear results without risk, and trainers seeking safe, teachable moments all come back to Acriflavine Hydrochloride for reasons grounded in experience and proof.
Like the best tools in any field, its strengths come through most clearly with fair respect. Proper use and understanding ensure the only mark Acriflavine Hydrochloride leaves is one of progress, not regret. Looking to the future, I trust people who make, monitor, and apply this compound will keep balancing tradition with responsible innovation. In a world leaning on both old wisdom and new technology, Acriflavine Hydrochloride deserves its seat in the circle—useful, known, and ready to help tackle tomorrow’s challenges as reliably as it has for generations.
