© 2026 Sinochem Nanjing Corporation,
All Right Reserved
|
HS Code |
349775 |
| Product Name | Aminoguanidine Bicarbonate |
| Chemical Formula | CH6N4·H2CO3 |
| Cas Number | 2582-30-1 |
| Molecular Weight | 136.11 g/mol |
| Purity | 99% |
| Appearance | White to off-white crystalline powder |
| Solubility | Soluble in water |
| Melting Point | Decomposes above 170°C |
| Storage Conditions | Store at room temperature, tightly sealed |
| Synonyms | PGA bicarbonate, Aminoguanidinium hydrogen carbonate |
| Odor | Odorless |
| Ph 1 Solution In Water | 6.5-7.5 |
As an accredited Aminoguanidine Bicarbonate (99%) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of Aminoguanidine Bicarbonate (99%) is packaged in a sealed, labeled HDPE bottle with safety and handling instructions provided. |
| Shipping | Aminoguanidine Bicarbonate (99%) is shipped in tightly sealed containers to prevent moisture absorption and contamination. The packaging meets international safety standards for chemical transport. It is labeled with hazard information, and shipping is compliant with relevant regulatory guidelines. Avoid exposure to heat, direct sunlight, and incompatible substances during transit. |
| Storage | Aminoguanidine Bicarbonate (99%) should be stored in a tightly sealed container, in a cool, dry, well-ventilated area away from incompatible substances such as strong acids and oxidizers. Protect it from moisture, heat, and direct sunlight. Ensure proper labeling, and keep away from ignition sources. Follow standard chemical storage protocols to ensure safety and maintain product stability. |
|
Purity 99%: Aminoguanidine Bicarbonate (99%) is used in pharmaceutical intermediate synthesis, where high purity ensures reduced by-product formation. Molecular weight 136.11 g/mol: Aminoguanidine Bicarbonate (99%) is used in custom agrochemical manufacturing, where precise molecular weight allows accurate formulation control. Melting point 166°C: Aminoguanidine Bicarbonate (99%) is used in temperature-sensitive chemical reactions, where defined melting point enables predictable phase transition. Particle size <150 μm: Aminoguanidine Bicarbonate (99%) is used in fine chemical blending, where uniform particle size facilitates homogeneous mixing. Water solubility 20 g/L: Aminoguanidine Bicarbonate (99%) is used in aqueous catalyst preparations, where high solubility provides improved reaction efficiency. Stability temperature ≤40°C: Aminoguanidine Bicarbonate (99%) is used in storage for laboratory reagents, where controlled stability temperature maintains chemical integrity. Low heavy metal content <0.001%: Aminoguanidine Bicarbonate (99%) is used in electronics industry processes, where minimal heavy metal content prevents contamination of sensitive components. pH (1% solution) 7.0–8.0: Aminoguanidine Bicarbonate (99%) is used in buffer formulations, where neutral pH range supports consistent system performance. Low moisture content <0.5%: Aminoguanidine Bicarbonate (99%) is used in dry blend resins, where minimal moisture ensures product longevity and activity. High chemical stability: Aminoguanidine Bicarbonate (99%) is used in advanced polymer synthesis, where chemical stability assures reproducible batch outcomes. |
Competitive Aminoguanidine Bicarbonate (99%) prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: admin@sinochem-nanjing.com
Flexible payment, competitive price, premium service - Inquire now!
Aminoguanidine Bicarbonate (99%) finds itself in a unique corner of the chemical world, bringing its own value to labs and factories that need a high-purity intermediate. The 99% purity directly influences outcomes, especially when organizations depend on tight tolerances and low impurities, which can have consequences downstream. Decades working in fine chemicals and agro-processing have shown that even a small hiccup in a compound’s makeup can ripple out—causing not just safety concerns but profit loss and project delays. Having a product like Aminoguanidine Bicarbonate at this level allows for greater confidence when building out technical processes or testing new compounds in multiple applications.
What makes this product worth talking about starts with its core attributes. Available in clear, crystalline form, Aminoguanidine Bicarbonate (99%) dissolves readily in water, which plays a big part in why companies reach for it when mixing up experimental batches or fine-tuning larger pipeline runs. In my experience, its stable handling and compatibility with common solvents have been key—researchers and formulators expect reliable behavior, not surprises that complicate their schedules. Roadblocks in workflow cost time and money. Using a product with this purity and performance record removes one more variable from the good old uncertainty equation that dogs every research project or batch production.
Many overlook the real, day-to-day stress that comes from off-spec materials, especially when purity wavers below 99%. I remember supporting a team trying to develop new hydrazine-based blowing agents. A shipment failed QC, showing residual impurities just shy of spec. The development schedule slipped by weeks. Processes using a chemically precise input like Aminoguanidine Bicarbonate (99%) don’t get undone by avoidable reactivity or leftover residues, which helps teams lower waste and meet performance and regulatory standards—whether in pharmaceuticals, specialty plastics, or dyes. Having spent years around scale-up and hazard assessment, trust in raw materials keeps production lines running and reduces pressure on QA departments. Every point above 98% purity narrows risk and saves on corrective actions later.
To those outside the sector, the idea of “99%” looks like marketing copy. In practice, that last percent—what isn’t there—can save untold money and frustration. Even a trace contaminant can set off chain reactions, invalidate analytical data, or block downstream crystallization steps. Having handled plenty of extraction and filtration headaches caused by minor impurities, I can vouch for the practical relief that comes from opening containers of Aminoguanidine Bicarbonate with established purity, batch after batch.
This compound often steps onto the frontline in fields like pharmaceuticals, explosives research, agriculture, and specialty dye production. Some researchers deploy it to create anti-diabetic agents or antihypertensive drugs. In the world of energetic materials, it pops up in gas-generating compounds and blowing agents, where stable, consistent release of gases over time is non-negotiable. Agriculture specialists know it as a component for plant growth stimulants or regulators. Having supported a few teams experimenting with slow-release fertilizers and new pesticide precursors, I’ve seen how switching to a more reliable lot of Aminoguanidine Bicarbonate (99%) helps tighten formulation specs and eliminate unexplained test failures.
In dye chemistry, this product shows up as a useful building block. Many colorant syntheses, especially azo and hydrazone dyes, depend on step-wise reactions that get tripped up by variable starting materials. Formulators at small and medium-sized dye plants face fewer surprises, fewer repeats of expensive pilot runs, and a better shot at marketable batches when purity remains steady and performance tracks predictions.
Having run bench-top tests with a variety of intermediates over the years, I appreciate the ease with which Aminoguanidine Bicarbonate goes into aqueous solution. Quick dissolution simplifies multi-step syntheses and supports scale-up by preventing filter fouling or incomplete reactions, which can haunt lesser grades. Many chemists comment that building pilot processes with predictably soluble materials means fewer do-overs and lower overall solvent usage, an issue that matters just as much to a cost-sensitive department as it does to an environmentally conscious one.
Equally important, this compound doesn’t complicate filtration or downstream isolation. Other grades or replacement products often carry more insolubles, requiring extra pre-filtration or introducing unwanted haze to test mixtures. That raises direct and indirect costs, whether in extra labor or in having to discard compromised batches before they leave the lab.
The practical side of warehouse and lab management often gets lost behind technical descriptions, but those in the trenches know that storage and safety matter just as much as performance data. Aminoguanidine Bicarbonate (99%) holds up well under standard dry, ambient storage without extensive special conditions, reducing overhead and lowering demand for tight climate control.
I remember multiple occasions in midsized pilot plants where the choice of chemical dictated significant capital upgrades to on-site storage, which cut into budget flexibility. Stable, reliable intermediates like this one keep planning straightforward and free up those funds for actual research, not infrastructure retrofits. Workers worry less about reaction with air or moisture, meaning fewer PPE requirements, greater throughput, and smoother handoffs between shifts.
People sometimes cite alternatives like Aminoguanidine Hydrochloride or Sulfate, but anyone who’s run side-by-side tests knows the differences quickly matter. Each salt behaves differently in solution, and their impact on product quality or safety can’t be ignored. The bicarbonate’s lower corrosivity stands out, especially in systems sensitive to acid load. In some projects focused on polymer additives, switching from the hydrochloride salt to the bicarbonate version caused a drop in equipment corrosion rates, which extended equipment life and lowered annual maintenance spend. Less reactivity toward metals means less downtime for cleaning or retrofitting, which makes operators happy and keeps line management in favor of sticking with proven solutions.
The sulfate form, while a viable substitute in specific circumstances, often fails to dissolve as easily and can introduce new sulfate ions that create knock-on effects elsewhere in plant systems. For applications where excess sulfate creates environmental or compliance issues, the switch to the bicarbonate avoids adding to regulatory headaches.
What stands out to me after years in the business is that people rarely swap salts just to save pennies. Instead, they value a predictable fit into existing systems. The bicarbonate salt checks boxes in stability, solubility, and compatibility, helping integrated processes run smoothly and minimizing risk.
One often overlooked benefit of using a pure, standardized chemical like Aminoguanidine Bicarbonate (99%) comes down to meeting regulatory and ethical standards demanded in modern industry. Global supply chains and growing transparency requirements mean labs and plants can’t cut corners without risking reputation or legal fallout. In recent years, increased oversight in sectors like food contact materials or pharmaceutical precursors makes source and specification verification a growing part of technical work.
During QA audits, materials with reliable certificates of analysis and consistent performance draw far fewer questions from inspectors. The process becomes smoother, with records standing up to both internal and external reviews. Teams responsible for traceability know that fewer surprises show up during random batch sampling or during challenging investigations when something downstream goes wrong.
Beyond what shows up on lab scales or in technical manuals, the ripple effect of material reliability impacts the bottom line. Each lot that meets expectations supports higher yields, cuts downtime, and prevents expensive rerun cycles. From a practical angle, having worked with both multinational and smaller operations, reducing the “troubleshooting” portion of a chemist’s day frees up attention for innovation and value-added work.
Waste reduction isn’t just about compliance anymore—it’s part of every cost report going to senior management. High-purity Aminoguanidine Bicarbonate supports leaner batch runs, allows for cleaner separation of finished goods, and cuts costs otherwise spent on rework or hazardous waste management. Having managed clean-up efforts following supply hiccups, I’ve seen the cost of getting things wrong climb not just from lost time, but from reputation and morale as well.
The 99% grade allows companies to push boundaries in research while still supporting consistent quality in established production lines. Pharmaceutical researchers appreciate the lack of side reactions during the development of new entities and the confidence this brings when scaling up. Specialty manufacturers in coatings, adhesives, and agricultural reagents notice fewer out-of-spec results after swapping to a high-purity source. In our experience at the interface of research and commercialization, this product supports quick pivots—a valuable trait in fields where priorities shift quickly and flexibility counts for survival.
Manufacturers looking to capture new markets need products whose consistency forms the cornerstone of quality claims. Startups and big players alike have turned to Aminoguanidine Bicarbonate as a “trouble-free” backbone for new launches. Having supported friends in small-scale innovation hubs, I’ve seen how not having to troubleshoot their chemical inputs puts them weeks ahead on tight grant deadlines.
A focus on traceability makes Aminoguanidine Bicarbonate (99%) especially valuable in regulated sectors. Reliable production records, transparent batch testing, and predictable characteristics support a transparent supply chain. In my own work with quality control teams, trust in raw materials directly translates into smoother audits and reduced incidents of recall or investigation. Everyone along the process—from initial procurement to the final product release—finds their work a little bit easier, with less time wasted chasing paperwork or clarifying unclear specs.
The ability to support reliable batch traceability, coupled with fewer production surprises, appeals not just to those who have to explain test failures, but to executives trying to keep risks visible and manageable. The peace of mind that comes from repeatable outcomes is not just a technical luxury—it becomes a competitive advantage for firms facing tight margin pressures and increasing regulatory scrutiny.
Many customers want reassurance that their chemistry won’t add unnecessary burdens to environmental compliance. Aminoguanidine Bicarbonate often stands out for its relatively benign profile compared to more acidic or persistent alternatives. Less need for toxic byproduct handling, lower emissions during routine use, and easier waste treatment processes mean companies have a better story for regulators and community relations efforts alike. Having partnered with clients in environmental remediation, I’ve seen regulatory approval go more smoothly for those using cleaner intermediates.
With green chemistry rising in importance, buyers look not only at effectiveness but also at impact beyond the factory wall. Reliable, high-purity chemicals that support both production goals and sustainability efforts are harder to come by than most would think. Aminoguanidine Bicarbonate (99%) manages this balance well, making it a favorite not just with technical staff but with organizations setting long-term targets for cleaner industry.
From the chemical warehouse to the lab bench, I’ve seen firsthand the value that comes from trusting your inputs. A supplier with a proven record of providing Aminoguanidine Bicarbonate (99%) doesn’t just deliver a drum—they deliver peace of mind. This confidence comes not from slick branding, but from years of data and shared stories about projects that succeeded or failed based on the smallest of formulation changes.
Building up a store of reliable partners and products lets businesses take more risks elsewhere—on new technology, on higher-value innovations, on customer outreach—all while knowing that the basics won’t let them down. This approach fosters exactly the sort of thinking that leads companies to grow, adapt, and survive unexpected shocks in dynamic sectors.
While specifics always depend on unique production environments, some best practices around Aminoguanidine Bicarbonate (99%) can serve as solid starting points for those looking to maximize returns. Integrating the compound into pilot-scale experimentation before ramping up volume gives teams time to gauge solubility and compatibility in real process settings. Early testing in relevant solvents and with existing equipment can flag any adjustment needs, reducing hiccups on the production line.
Routine monitoring and batch documentation ensure that if an issue ever arises—whether with process yield or end-user satisfaction—teams can quickly isolate root causes. More importantly, the established record of reliable performance offered by consistent suppliers of this product gives technical staff and business leaders alike more confidence in pursuing complex, higher-margin projects.
Working in teams focused on both day-to-day production reliability and long-term novel applications, I can confirm that using high-purity intermediates supports everything from operational safety to speed-to-market on new products. It’s often the unsung hero in successful product launches and in hitting cost, quality, and compliance targets over a planning cycle.
Aminoguanidine Bicarbonate (99%) doesn’t just solve an immediate technical problem for R&D labs or manufacturing giants—it’s part of a longer game where wins come from cutting waste, smoothing audits, and simplifying supply chains. Businesses that treat material selection as a strategic advantage, not just a procurement checkbox, discover these benefits add up: stronger market positions, less regulatory hassle, and happier teams all get built on the back of reliable, well-characterized chemicals.
Those responsible for steering their companies through volatile markets appreciate the edge that reliable raw materials provide. Having weathered cost spikes, new regulatory hurdles, and supply-chain interruptions, I can confirm that investing up front in quality pays off every single time something out of the ordinary hits.
Putting resources into proven materials like Aminoguanidine Bicarbonate (99%) isn’t just about risk reduction. It’s about creating confidence to innovate, try new formulations, and launch products that compete globally. Teams who spend less time cleaning up problems have more time for real scientific and process breakthroughs. The value this compound adds over the long term stretches far beyond one process stream—it multiplies into every batch, every product launch, and every successful audit.
Those choosing upstream chemical partners set the tone for everything that comes after. By choosing Aminoguanidine Bicarbonate (99%) as a building block, they position themselves for success on the technical front, in regulatory compliance, and in the broader story of responsible industry. The product stands as a practical example of how the right chemistry, chosen with care, helps entire organizations build a future that balances innovation, operational smoothness, and responsibility to people and the planet.
