|
HS Code |
483888 |
| Product Name | AR Succinic Acid |
| Quantity | 100g |
| Chemical Formula | C4H6O4 |
| Molecular Weight | 118.09 g/mol |
| Purity | Analytical Reagent (AR) grade |
| Appearance | White crystalline solid |
| Cas Number | 110-15-6 |
| Melting Point | 185-187°C |
| Solubility | Soluble in water |
| Storage Conditions | Store in a cool, dry place |
| Odor | Odorless |
| Ph Value | 2.6 (0.1M solution) |
| Boiling Point | 235°C (decomposes) |
| Synonyms | Butanedioic acid |
As an accredited AR Succinic Acid 100g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | AR Succinic Acid 100g is packaged in a sealed amber glass bottle with a secure screw cap, labeled clearly for laboratory use. |
| Container Loading (20′ FCL) | **Container Loading (20′ FCL):** Securely packed AR Succinic Acid 100g bottles, arranged in cartons, maximized for efficient 20′ FCL container shipping. |
| Shipping | **Shipping Description:** AR Succinic Acid 100g is securely packaged in a sealed, chemical-resistant container to prevent contamination and spillage. It is shipped in compliance with safety regulations, accompanied by a Material Safety Data Sheet (MSDS). Shipping is typically via ground or air with proper labeling for safe handling and prompt delivery. |
| Storage | Store AR Succinic Acid 100g in a tightly sealed container, kept in a cool, dry, and well-ventilated area, away from moisture, direct sunlight, and incompatible substances such as strong oxidizing agents. Clearly label the container and store it at room temperature. Ensure the storage area is secure and accessible only to authorized personnel, following all applicable safety regulations. |
| Shelf Life | AR Succinic Acid 100g typically has a shelf life of 3-5 years when stored in a cool, dry, and tightly sealed container. |
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Purity 99.5%: AR Succinic Acid 100g with purity 99.5% is used in high-precision buffer preparation for analytical chemistry, where it ensures accurate pH control and minimal contamination. Molecular weight 118.09 g/mol: AR Succinic Acid 100g with molecular weight 118.09 g/mol is used in biochemical assays, where it provides consistent substrate performance for enzyme activities. Melting point 185°C: AR Succinic Acid 100g with a melting point of 185°C is used in solid-state synthesis for specialty polymers, where it enables efficient processing and homogeneous incorporation. Stable at 25°C: AR Succinic Acid 100g stable at 25°C is used in laboratory reagent storage, where it maintains chemical integrity and reactivity over time. Particle size ≤ 100 µm: AR Succinic Acid 100g with particle size ≤ 100 µm is used in chromatography sample preparation, where it promotes rapid dissolution and uniform matrix mixing. UV Absorbance ≤ 0.05 at 260 nm: AR Succinic Acid 100g with UV absorbance ≤ 0.05 at 260 nm is used in spectrophotometric reference standards, where it ensures low background interference and high analytical sensitivity. Heavy metal content < 0.001%: AR Succinic Acid 100g with heavy metal content < 0.001% is used in pharmaceutical formulation development, where it guarantees regulatory compliance and formulation purity. pH (1% solution) 2.6 – 2.8: AR Succinic Acid 100g (1% solution pH 2.6 – 2.8) is used in cell culture media preparation, where it allows precise pH adjustment for optimum cell growth. Water content < 0.2%: AR Succinic Acid 100g with water content < 0.2% is used in moisture-sensitive organic synthesis, where it minimizes unwanted side reactions and product degradation. |
Competitive AR Succinic Acid 100g prices that fit your budget—flexible terms and customized quotes for every order.
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Every factory, lab, or research facility searching for AR-grade succinic acid is usually after one thing: reliability. From hands-on years compounding organics and purifying intermediates, we know that a lot can go wrong if feedstock doesn’t meet strict quality marks. We work closely with chemists who recognize the difference between the consistent output of a manufacturer and the uncertainties that come with materials of unclear origin.
We make this 100g unit of AR succinic acid because we’ve seen how often even a small quantity—if pure—can tip the scales on project success. Quite a few folks in analytical labs performing titrations, synthesis verifications, or buffer formulations trust our process since they know nothing replaces direct manufacturer responsibility. From batch control to in-process monitoring, we don’t hand off our product or rely on generic grade claims. The aim is to deliver assurance to people handling sensitive calibration or quantitative analysis. This isn't a relabel of generic stock or merchant blends, but straight from our controlled line.
Succinic acid in AR grade isn’t a superficial quality upgrade. It’s a result of targeted purification and deep screening, so residual metals, moisture, and organics remain at levels below critical thresholds. In most years, we pour time into improving our crystallization techniques, reviewing supplier lots, and controlling temperature gradients—all to stabilize purity. Laboratory research, particularly analytical applications, reacts badly to trace contaminants. Our team works from raw selection through to vacuum drying because impurities like iron or chloride can disrupt colorimetric measurement or skew mass balances.
One key difference with our AR succinic acid comes from dedicated batch testing. We run ion chromatography, check acid value consistency, and screen for major chemical interferences before any packing. Out of the thousands of kilos produced in annual runs, only the lots matching analytical specs find their way into 100g bottles. We want scientists and quality controllers, especially those testing pharmaceutical environments or calibrating analytical equipment, to handle a predictable material. The approach limits variability from lot to lot, drawing on decades of process optimization—no detail is too small when repeatability matters.
Making AR succinic acid means establishing stricter gates than food or industrial grades. Some may ask: what’s the real difference? Ten years working with bench scientists and seeing project outcomes makes the answer clear. Industrial succinic acid sometimes carries ash residue, unwanted sodium, or unlisted coloring agents. Even some so-called “pure” or “technical” batches we’ve sampled elsewhere failed to pass chromatic or FTIR analysis for clean baseline readings. In an AR batch, there’s none of that ambiguity. Researchers using our acid don’t need to chase ghosts in their results or question if variation came from their own technique or impurity spikes in the supply.
Why take this extra effort? Seeing years of feedback from customers—lab directors, PhD students, industrial analysts—we know wasted hours or failed syntheses often trace back to skipped steps in solubility, residue, or cross-contamination checks. For any analysis involving acid titration, chromatography, or polymer modification, even minor background contaminants matter and can undo weeks of planning. Our philosophy? We’re responsible for more than just meeting a minimum spec on paper. We’ve built trust, often batch by batch, because users return when materials cut out avoidable surprises and stay consistent across the shelf life.
Every unit of AR succinic acid leaves our facility after a purification schedule that we’ve refined through years using both established and proprietary steps. We manage each stage: source raw material checks, sequential recrystallization, filtering, and drying cycles carefully optimized for temperature and humidity. In production, our technicians monitor pH and assess colour and particulate matter under strict lighting and visual standards—far beyond minimums. Our AR line sees layered quality control. We weigh, bottle, and cap products in HEPA-filtered rooms, reducing airborne contamination risk to near zero. Each lot comes from uninterrupted production sequences to reduce cross-batch issues.
Metric checks mean more than just paperwork compliance. Independent audits regularly backstop our internal controls. Retention samples from every batch rest on our shelves for years, making backtracking of any user concern straightforward. We discourage obsolete process shortcuts and invest in retraining—our staff understands every shortcut skipped reflects in a scientist’s confidence, or the lack thereof, in the field. That attention to workflow and documentation provides an anchor for those who don’t want to second guess the quality of their feedstock.
AR succinic acid from our lines always meets—or exceeds—analytical reagent criteria, but that’s just part of the story from our end as manufacturers. Some customers press for defined limits on trace ions, like sulfate and chloride, since those interfere with endpoint detection or yield calculations. We design specs for residue after ignition, water content, and precise melting ranges. Materials used in pharmaceutical settings need reliable NMR and IR spectra so nothing interferes with downstream characterization. We’ve built our records so every scientist gets data up front, not after purchase.
Careful lot segregation remains critical. Each box carries full traceability—down to individual evaporation and packaging runs. Long-term partners appreciate that our documentation systems tie bottles right to the original process logbook, not vague “compliance statements.” New customers signal trust when they order second or third times after seeing consistency hold up project after project. Over the years, renewed contracts and honest feedback cycles from the field have alerted us to rising purity expectations, tightening specs and driving further development.
Succinic acid often works as a calibration standard, buffer component, or synthetic intermediate. Plenty of teams come to us wanting a supply for developing pH standards or in chromatography buffer recipes. They demand acid that dissolves quickly, leaves no haze, and stays colorless. Our AR succinic acid answers that; solubility and particulate checks form part of every quality release.
Environmental work, like dissolved organic carbon measurement or wet chemistry standards, banks on unambiguous acid batches. Succinic acid finds use in bio-based plastic synthesis and controlled catalyst work too. The study of enzymatic dehydrogenase activity or metabolic pathway tracing relies on AR-grade buffer stability and absence of leachable ions. Over years, we’ve heard regular stories from R&D labs where noise in results linked back, after much searching, to invisible plating residues in “technical grade” acid sourced elsewhere.
Some researchers use succinic acid for high-purity fermentation, others for library screening or as a titrant reference. Failures that trace to impurities mean wasted money and slowdowns. That frustration is why we focus every week on controlled recrystallization, multi-stage vacuum drying, and sealed packaging routines.
Direct manufacturing gives us leverage over spec and quality—something off-brand or repackaged options rarely manage. The cache of “AR” or “Analytical Reagent” on a label from trading intermediaries says little about the original handling, possible mixups, or offcuts blended to pad a batch. Our reputation grew from direct accountability. In comparison tests—both scientific literature and our customer feedback—subtle inconsistencies and contaminant spikes showed up in off-brand AR acid, especially when the trail vanished back to intermediaries.
Supply volatility and quality drift plague traders and resellers, which puts production line managers, QC labs, or R&D scientists at unnecessary risk. We hold capacity in-house, control the lot sequence, and keep audit logs transparent. Because we own both synthesis and purification, our seasons in the business allowed us to respond quickly to unexpected feedback, or, during supply chain squeezes, maintain uninterrupted quality. This is a built-in safeguard that end-users notice, especially those with strict downstream validation or auditing routines.
Some products in the market arrive with ambiguous sourcing, occasional yellowish tint, or variable moisture. We work year-round on maintaining a snow-white, crystalline product. If there’s a deviation, we halt release. Researchers and operators in the field want confidence not marketing. That’s the difference a real manufacturer offers.
Years of direct contact with labs highlighted a pain point: bottlenecks caused by off-spec acids, and how these delay critical experiments. Several times, scientists shared that their entire week slowed because a bottle from a distributor didn’t titrate normally, forced unnecessary re-standardization, or clouded up due to invisible metals or organics. We responded by tweaking purification endpoints, re-tuning drying stages, and sampling at higher frequency. Our R&D coordinated directly with analytical chemists at several partner institutions to track long-term results, tightening spec where field requirements changed.
Occasionally we’ve fielded requests for custom moisture or particle targets, helping users adjust for unique workflows. Feedback mechanisms matter in keeping product lineups aligned with live needs. It isn’t uncommon for new users, after troubleshooting third-party products for months, to switch and find ongoing reproducibility after moving to our direct supply. We see the traceability and deep control as the main difference between material handed over by the manufacturer and batches from points further down the supply chain.
Seasonal changes, differing ambient humidity, or even new solvent use in certain labs can create variance in how succinic acid performs day to day. Our understanding from years on the production floor is that shelf-stable packaging—sealed under cleanroom conditions—helps keep water content from drifting between the bench and the bottle. That cuts down on drift in acidimetric titrations and keeps calibration curves tighter over longer periods.
We’ve spent years attending industry consortia and regulatory workshops, so we keep one eye on future proofing the line, even for a “classic” compound like succinic acid. Purity needs don’t stand still. There’s push for greater transparency in carbon accounting and raw sourcing. We’re integrating upstream auditing and greener purification where possible—without giving up on AR-grade reliability.
Consistency remains the backbone of our approach. Some see AR-grade as just a label, but to us it represents fulfilled promises—tight batch selection, repeatable charge-yield ratios, and removal of non-obvious contaminants. Each slight improvement flows from lab-side stories: the polymer research team that needed tighter chloride controls, or the environmental lab detecting an ion not listed on typical specs. Those stories guide lane-by-lane improvement.
Sustainability goals add new challenges. Our investments in waste reduction, solvent recycling, and minimization of water usage during crystallization drive new routines. Engineering improvements mean our AR batches need less post-process cleaning, keeping both the bottle and the broader environment clean. These changes keep resonating with the next wave of researchers, company labs, and regulatory partners aiming for performance without creating new downstream headaches.
Most challenges presented by academic labs and industry users trace back to lack of clarity around chain-of-custody, batch integrity, or uncertain storage. Through regular site visits, sample audits, and customer-driven re-certification, we’ve closed feedback loops decades in the making. The result? AR succinic acid that regularly passes external cross-checks and dovetails with the evolving needs of disciplines from green chemistry to advanced biotechnology.
Even well-equipped labs sometimes hit snags from unexpected minor ions or misleading color. Benchmarking against reference standards in our in-house lab, we’ve avoided the regret of project stoppages. Fresh perspectives from customer training sessions and site consultations led to offering packages sealed for low-oxygen and low-humidity environments, so each user—regardless of the climate in which they receive our bottles—sees stability across a project’s entire cycle.
We’re not just responding, we’re anticipating: shifting label materials to low-leach types, strengthening bottle seals, and accelerating digital access to batch certificates and testing runs. These are changes prompted by real-world lab life rather than static production standards.
As the actual manufacturer, every bottle of AR succinic acid we ship brings a piece of our facility’s track record. We carry memory of each lot run, each improvement after a field complaint, and the satisfaction of long-term users finding fewer surprises. With direct access to production and testing, our product stays in sync with sharp turns in research, scale-up, and analytical trends.
By controlling ingredient input, process pacing, and packaging without interruption, we know exactly what lands on a customer’s bench. Our team stands behind every box, adapting as labs demand higher precision or face new regulations. Other options—the third-party, the relabeled, the generic—can’t match the blend of deep process experience, user feedback, and willingness to adapt that comes from being on the actual production line.
Feedback from university professors, pharmaceutical QA leads, and environmental analysts built our culture of shared learning. We keep data flows transparent and invest in direct conversation, so users find better answers when they run into problems or wish to push the boundaries of their own work. Years of such cycles tightened trust, and shaped product directions far beyond the usual generic offerings.
AR succinic acid in 100g bottles reflects not just our process but our philosophy: real chemistry grows through real partnerships between supplier and scientist. We know that each experiment, assay, or reaction counting on our product is a real-world test—and customer satisfaction comes from zero unresolved complaints, predictable specs, and honest admission of where we still aim higher.
Relying on a manufacturer for AR succinic acid isn’t only about minimizing failure risk. It’s about building a supply chain where chemists feel empowered, not encumbered, by their feedstock. Every feedback interaction, inspection report, and successful experiment sharpens our focus for the next production round. That’s the result of hands-on experience and a willingness to carry responsibility—direct, deliberate, and always ready for the next set of laboratory challenges.
