© 2026 Sinochem Nanjing Corporation,
All Right Reserved
|
HS Code |
502349 |
| Chemical Name | Furoic Ammonium Salt |
| Molecular Formula | C5H5NO3·NH4 |
| Molecular Weight | 144.13 g/mol |
| Appearance | white to off-white crystalline powder |
| Solubility In Water | soluble |
| Cas Number | 70334-13-3 |
| Odor | odorless or slight |
| Storage Conditions | store in a cool, dry place |
| Stability | stable under recommended conditions |
| Ph Of Solution | 6.5-7.5 (1% aqueous solution) |
| Usage | primarily used in chemical synthesis and research |
| Synonyms | Ammonium furoate |
| Handling | avoid inhalation and contact with eyes or skin |
As an accredited Furoic Ammonium Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Furoic Ammonium Salt is packaged in a 500g amber glass bottle with a tight-sealing cap, labeled for laboratory use. |
| Shipping | Furoic Ammonium Salt should be shipped in tightly sealed containers, protected from moisture and direct sunlight. Transport under cool, dry conditions and in compliance with local chemical regulations. Proper labeling, handling, and documentation are required. Avoid physical damage during transit and ensure compatibility with other shipped materials to prevent hazardous reactions. |
| Storage | Furoic Ammonium Salt should be stored in a tightly sealed container in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible substances such as strong acids and oxidizers. It should be kept away from moisture and humidity. Ensure proper labeling and follow all relevant safety guidelines for chemical storage to prevent contamination or decomposition. |
|
Purity 98%: Furoic Ammonium Salt with 98% purity is used in pharmaceutical intermediate synthesis, where high purity ensures consistent chemical reactivity and quality yield. Molecular Weight 140.13 g/mol: Furoic Ammonium Salt with molecular weight 140.13 g/mol is used in fine chemical production, where precise molecular specification guarantees batch-to-batch consistency. Melting Point 160°C: Furoic Ammonium Salt with a melting point of 160°C is used in organic reaction formulations, where thermal stability supports safe high-temperature processing. Particle Size <50 µm: Furoic Ammonium Salt with particle size below 50 µm is used in catalyst carrier manufacturing, where small particles improve dispersion and reaction surface area. Aqueous Solubility 25g/L: Furoic Ammonium Salt with aqueous solubility of 25g/L is used in agrochemical formulations, where high solubility enhances delivery efficiency and product performance. Stability Temperature 120°C: Furoic Ammonium Salt with stability up to 120°C is used in industrial blending applications, where thermal resistance prevents decomposition during processing. |
Competitive Furoic Ammonium Salt 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!
After years of watching chemical catalogs stack up on lab benches, I can tell you most industrial ingredients come wrapped in vague jargon and mystery. Furoic Ammonium Salt brings a break in the monotony. This compound, typically registered as C5H4NO2.NH4, usually appears as a white to off-white powder and finds purpose in applications that reach beyond the basics of chemistry. Its distinct model, often tagged as Model FAS-1000 in commercial distribution, sits at the intersection of practical functionality and scientific clarity. The future of many production lines will rely on honest ingredients that do their job without fanfare, and Furoic Ammonium Salt answers that call.
Long hours in product development have taught me to question every ingredient, so I gravitate toward products like Model FAS-1000 that actually keep up with evolving industry standards. The Model FAS-1000 offers purity levels that meet or exceed 99%, which points to careful manufacturing and reliable sourcing. In my experience, this purity level lets chemists avoid unpredictable reactivity — less time lost troubleshooting, more time getting projects out the door. The powder dissolves cleanly in water, a feature that goes a long way in practical lab setups and keeps processes running smoothly.
From the view of someone who’s spent years managing R&D teams, versatility stands out as Furoic Ammonium Salt’s greatest asset. One common use falls in the synthesis of pharmaceuticals, where its predictable reactivity and manageable safety profile outperform legacy ingredients that cause compliance headaches. Researchers often turn to this salt during the crystallization of active pharmaceutical ingredients. Its solubility in polar solvents allows for batch adjustments without the need for constant recalibration. This small but significant detail translates directly into operational savings.
Agriculture and fine chemicals remain other strongholds for Furoic Ammonium Salt. Niche fertilizer blends get a boost from its ammonium content, giving controlled nutrient release that benefits precision farming. And in polymer synthesis, the presence of the furan ring presents opportunities for designers looking to introduce heterocyclic structures in specialty plastics. I’ve seen specialty labs gain both reliability and shelf-stability by swapping in Furoic Ammonium Salt over more volatile or unstable options.
Every chemist has faced the letdown of picking a cheaper additive, only to watch it underperform or introduce unwanted side reactions. Furoic Ammonium Salt, particularly at the FAS-1000 purity level, earns trust by keeping byproducts minimal. The compound’s predictable structure sidesteps issues that pop up with alternatives like sodium or potassium furoates, which can bring more variable solubility and introduce exchangeable ions that interfere with sensitive reactions.
In my own benchwork, I’ve found this salt reduces the troubleshooting loop. Its compatibility across aqueous and some organic solvents removes the hassle of re-optimizing conditions for each new project. With the sodium or potassium counterparts, unexpected precipitation or ionic byproducts can clog up analysis or, worse, contaminate downstream products. Standard FAS-1000-grade Furoic Ammonium Salt streamlines purification and sets up cleaner analytical readouts, which in turn helps ensure data quality and speeds up approval cycles.
Consistency in chemicals is a bigger deal than outsiders often realize. Minor impurities or variable moisture content can derail a production run or force costly retesting — something procurement teams dread. Furoic Ammonium Salt, especially batches derived from rigorously controlled synthesis, stands out here. The physical properties hold steady from lot to lot: melting point typically falls in the neighborhood of 178-182°C, which signals reliable crystallization. Moisture content stays consistently below 0.5%, based on what I’ve seen in post-delivery analytics. Such reliability helps buyers sleep at night and allows labs to plan long-term without guessing at quality shifts.
These details matter in pharma production, where regulatory authorities frown on even the barest hint of inconsistency. Furoic Ammonium Salt’s record for quality control comes from batch-tested protocols, not marketing hype. In-house and independent lab tests show that even under accelerated storage or after international shipping, FAS-1000 rarely deviates from its specs — a trait that cuts down on rejected lots and unplanned downtime.
I’ve managed enough environmental audits to appreciate when a raw material brings down a facility’s hazard profile. This salt starts with a relatively straightforward synthesis, usually from furfural and ammonium carbonate, both of which draw from sustainable biomass routes. Reduced reliance on petroleum-based feedstocks makes this ingredient a smart pick as sustainability demands grow. Down the line, the compound breaks down without releasing toxic residues, standing in contrast to chloride-based salts and heavy metal additives.
Sustainability isn’t just about end-of-life. It tracks all the way back to how each compound enters the supply chain. Furoic Ammonium Salt helps manufacturers edge closer to clean-label production, especially in the pharmaceutical and food additive sectors. Its low toxicity and manageable handling requirements bring down both insurance costs and complexity in environmental permitting. Time and again, audit trails for Furoic Ammonium Salt meet rising ESG reporting requirements with less red tape, which keeps projects moving from pilot to production.
No chemical survives real-world use on theory alone. Repeated pilot runs taught me the details that customers care about: flowability, dusting, and packaging integrity. Furoic Ammonium Salt handles well, resisting the caking and bridging problems seen with some crystalline salts. That means fewer headaches during transfer and mixing, both by hand or in automated lines. Engineers overseeing bulk transfer usually prefer the standard 25 kg plastic-lined drums, which protect the compound from ambient moisture while keeping handling ergonomics straightforward.
Shelf stability always grabs attention in procurement meetings. I recall a case in which a competitor’s salt degraded within six months due to humidity, sparking complaints and urgent reorders. Furoic Ammonium Salt, having gone through controlled six- and even twelve-month storage simulations, kept its integrity, color, and reactivity. That reliability keeps operations on schedule and fosters long-term trust with buyers who hate last-minute surprises.
No product is a miracle cure, and Furoic Ammonium Salt faces practical restrictions. Its price point stays above commodity salts like sodium chloride, which can deter cost-focused buyers for bulk, low-margin applications. Chemists working near the edge of reactivity windows may also find it unsuitable where non-ammonium cations are critical for specific biochemical pathways. These limitations don’t undercut its appeal where purity, predictability, and reactivity top the list — but they do warrant upfront conversations with end users.
From conversations at trade shows and vendor calls, I’ve learned buyers get the most value by viewing this salt as an upgrade for critical-path projects rather than a drop-in for any general use. Honest guidance during qualification helps avoid mismatched expectations and builds stronger supplier relationships. This saves both suppliers and buyers from drawn-out troubleshooting and misreported performance metrics.
Sodium and potassium furoates have been standard fare in certain synthesis routes, offering low cost and familiar profiles. In many labs, those options still work for daily screening or non-critical pilot runs. Yet add the need for tight pH control, lower ionic interference, or reduced sodium content — especially in food or pharma projects — and their shortcomings surface fast. Ammonium cation, in contrast, breaks down gently without loading the process with extra ions that can complicate downstream processing.
Another oft-cited peer is furoic acid. Free acid introduces issues around pH adjustment and operational safety, since excess acidity spikes corrosion risk and can require special handling protocols. Ammonium salts eliminate most of these headaches while maintaining the benefits of the furoyl group. My time in troubleshooting meetings has shown me that switching from the acid or sodium variety to ammonium often eliminates recurring issues around precipitation, color instability, or delayed crystallization in scale-up.
Decisions around sourcing extend beyond the compound itself. Experienced purchasing teams confirm suppliers’ storage, logistics, and traceability standards before committing to high-volume contracts. Furoic Ammonium Salt manufacturers that display full batch traceability, certifications for purity, and environmental controls tend to win contracts and avoid compliance headaches. Consistency, it turns out, builds long-term partnerships far more than bargain pricing or one-off discounts.
I’ve fielded dozens of technical support calls that come down to supply chain gaps — inconsistent labeling, shift in packaging suppliers, or altered drying conditions. Established vendors for Furoic Ammonium Salt invest in robust documentation: certificates of analysis, chain-of-custody records, and transparent testing protocols. That administrative backbone protects both labs and end users from the costly fallout of recalls, regulatory action, or unpredictable data.
Experienced teams approach every new raw material with a testing and validation plan. For Furoic Ammonium Salt, this means confirming solubility under intended batch conditions, verifying purity through independent analysis, and documenting storage outcomes over time. Switching to a new grade, such as FAS-1000, often warrants side-by-side batch trials with existing inventory to capture any subtle differences in process yields, color, or end-product performance.
Facilities investing in high-grade inputs should also revisit their handling protocols — ensuring that climate control, powder transfer systems, and cross-contamination safeguards align with the material’s specifications. In environments where regulatory audit trails matter, lots should ship with complete paperwork, including independent lab verification and date-tested moisture values.
For downstream users in specialty chemicals or polymers, flexibility becomes an asset. Building a feedback loop between R&D and production lines guards against unexpected mismatches. I’ve watched collaborative teams shave weeks off troubleshooting timelines by inviting technical reps into process walkthroughs before full-scale adoption. These small investments in communication and protocol testing empower teams to avoid costly missteps.
In today’s market, no company exists in a vacuum. The moment a new ingredient goes into commercial production, its performance gets judged across multiple supply chains. Furoic Ammonium Salt has built a record of reliability that goes beyond any one sector. I’ve seen it anchor antimicrobial efforts in pharmaceuticals on Monday, then lend consistency to a crop fortifier by Thursday. Its track record shows up in how fast companies scale from bench to pilot, then to full plant, with far less adjustment than traditional alternatives.
Partnerships between suppliers and users count for more than advertised specs. The most effective collaborations grow around candid conversations, routine joint testing, and an openness to change. Furoic Ammonium Salt, with its detailed manufacturing audits, robust documentation, and visible quality controls, fits today’s model of transparent supply — one where every batch, drum, and invoice tells a story of reliability.
Years of handling regulatory filings showed me that one of the biggest barriers to market entry isn’t chemical reactivity, but paperwork and safety reviews. Furoic Ammonium Salt steers clear of the more heavily regulated hazardous classifications, which takes the sting out of both shipping and storage. Standard labeling, accepted hazard designations, and low reactivity align well with global transit, making shipment logistics far less risky than many specialty chemicals.
In the context of pharmaceutical use, batch traceability and audit readiness give manufacturers an edge in both pre-approval inspections and ongoing quality reviews. Its handling characteristics — such as lack of aggressive dusting, ease of cleaning, and broad stability — keep workplace safety programs simple, bringing relief to both plant managers and their safety officers. Facilities looking to minimize accident rates and hazmat profiles have found Furoic Ammonium Salt to be a good ally.
For all the market noise, most users trust their peers long before ad copy. Case studies and technical forums have surfaced stories of successful switches to Furoic Ammonium Salt — often backed by data and months-long side-by-sides against legacy inputs. These stories carry weight because they capture the anxieties and problem-solving of real work, from pilot plant to commercial output.
Knowledge sharing helps users sidestep repeated mistakes and anchor best practices for the next generation of chemists. Rather than leaning on theoretical reviews, the industry benefits more from transparent process notes and failure reports. Furoic Ammonium Salt stands out here: its growing user base has contributed both online and offline to a more mature understanding of performance profiles, compatibility checks, and methodology tweaks. This knowledge infrastructure reduces the friction that usually meets new specialty chemicals, making the onboarding curve gentler.
Innovation rarely follows a straight path, but reliable ingredients help keep progress on course. Furoic Ammonium Salt, especially at purity levels like FAS-1000, is more than just a supporting character in modern production. Its clean profile, practical handling, and dependable data have opened doors in sectors as diverse as advanced materials, formulation chemistry, and specialty agriculture.
Manufacturers who take the time to document results, share lessons, and seek peer-to-peer feedback push everyone forward. I’ve seen pilot sites accelerate registration timelines and reduce waste just by swapping out less predictable additives. In a world demanding transparency, safety, and sustainability, Furoic Ammonium Salt answers the call without the baggage of more problematic chemicals.
The utility of Furoic Ammonium Salt isn’t theoretical. Across dozens of labs and production lines, its real-world performance and straightforward design have made it the kind of ingredient you want to keep close. For those who value reliability, regulatory comfort, and adaptability, the FAS-1000 model stands out in a crowded field. Its story reminds us that quality wins out over hype, and that even modest innovation leaves a long-lasting mark.
