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HS Code |
934807 |
| Product Name | AR Aniline 500ml |
| Chemical Name | Aniline |
| Chemical Formula | C6H5NH2 |
| Molecular Weight | 93.13 g/mol |
| Purity | Analytical Reagent (AR) Grade |
| Volume | 500 ml |
| Appearance | Colorless to slightly yellow liquid |
| Boiling Point | 184 °C |
| Melting Point | -6.2 °C |
| Density | 1.02 g/cm³ |
| Cas Number | 62-53-3 |
| Storage Conditions | Store in a cool, well-ventilated place, away from light |
| Solubility | Slightly soluble in water, miscible with most organic solvents |
| Flash Point | 70 °C |
| Odor | Aromatic, amine-like |
As an accredited AR Aniline 500ml factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The AR Aniline 500ml is packaged in a dark amber glass bottle, securely sealed, clearly labeled with chemical details and quantity. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Aniline 500ml: Efficiently loads 1,600 cartons (each 16x500ml bottles), ensuring safe, compliant chemical transport. |
| Shipping | The AR Aniline 500ml is shipped in a tightly sealed, chemical-resistant glass bottle, securely packed in cushioning material within a sturdy box. The package is clearly labeled with standard hazardous chemical warnings and handled in accordance with safety regulations to prevent leaks, breakage, or exposure during transit. |
| Storage | AR Aniline 500ml should be stored in a tightly sealed container, away from light, heat, and direct sunlight, in a cool, dry, and well-ventilated chemical storage area. It should be kept separate from oxidizing agents, acids, and strong alkalis. Proper labeling and secondary containment are recommended. Access should be restricted to authorized personnel, following safety and handling guidelines. |
| Shelf Life | AR Aniline 500ml typically has a shelf life of 2 years when stored tightly sealed in a cool, dry, and dark place. |
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Purity 99.5%: AR Aniline 500ml with purity 99.5% is used in analytical laboratories, where it ensures high-accuracy qualitative analysis. Melting Point 6°C: AR Aniline 500ml with a melting point of 6°C is utilized in organic synthesis workflows, where it supports reproducible amine functional group incorporation. Density 1.02 g/cm³: AR Aniline 500ml with density 1.02 g/cm³ is applied in polymer research, where it provides reliable monomer distribution for consistent polymerization. Refractive Index 1.586: AR Aniline 500ml with refractive index 1.586 is employed in optical material formulations, where it enhances the precision of spectral calibration. GC Assay ≥99%: AR Aniline 500ml with GC assay ≥99% is used in pharmaceutical R&D, where it guarantees product purity for safe compound development. Stability Temperature below 40°C: AR Aniline 500ml with stability temperature below 40°C is utilized in chemical storage, where it prevents degradation and preserves reactivity. Water Content ≤0.2%: AR Aniline 500ml with water content ≤0.2% is used in dye manufacturing, where it minimizes side reactions and improves yield. Viscosity 4.3 mPa·s: AR Aniline 500ml with viscosity 4.3 mPa·s is applied in resin modification, where it allows precise control of fluidity for optimal processing. |
Competitive AR Aniline 500ml prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615380400285 or mail to sales2@liwei-chem.com.
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Tel: +8615380400285
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Over the years in chemical manufacturing, every product off our line grows from careful planning and patience. AR Aniline 500ml isn’t just another reagent in a bottle. This is a product we’ve handled batch after batch, feeling the subtle differences that separate an ordinary chemical from something fit for critical laboratory and industrial work. Each 500ml flask holds purified aniline, meeting consistently high standards demanded by researchers and process engineers who know their craft as intimately as we know ours.
Aniline, in its many forms, runs through dye synthesis, pharmaceutical labs, polymer science, and academic research. Variables like contaminant levels, batch color, and even trace water invite headaches for anyone working toward reliable results. Skipping precision brings costly surprises—unwanted side products, inconsistent reactions, or drift and noise in analytic instruments. Our AR-grade process responds to these challenges at every stage. We source feedstocks with documented origin, then manage every distillation, extraction, and final quality test ourselves. No shortcuts dilute the concentration, stability, or clarity that our chemists rely on with every bottle.
In a crowded landscape of commercial anilines, big differences arise in who makes, purifies, and bottles the chemical. Some resellers simply move bulk technical-grade material onto the shelf, assuming end-users can handle any inconsistencies. Traders may blend or repackage to create a product that’s visually appealing but chemically unpredictable. We take the other path. Only primary-source aniline enters our plant, and every batch’s life cycle remains in our own lab. While this demands more labor and close recordkeeping, it best ensures minimal contamination—especially of nitroenated or chlorinated byproducts. This helps researchers and technicians carry out catalysis, diazotization, and analytical comparison work at a high level, safely and reproducibly.
Close control over fraction cuts, residual solvent removal, and peroxide stabilization stems from years studying customer feedback and running our own batch-scale reactions. Routine gas chromatography and wet-chemistry confirm purity above 99.8%, and water content rarely creeps past 0.1% w/w. These numbers stem from concrete expertise, not optimistic label-copy; our analytic team rejects any run that falls outside specification and feeds it back for reprocessing. Color, sometimes overlooked, tells its own story: our aniline holds a faint amber that signals the absence of oxidized impurities, with each lot tracked through visible spectrophotometry.
From our experience supporting laboratories and pilot plants, a well-dosed 500ml volume meets a wide range of experimental needs without waste or awkward handling. Oversized drums risk oxidation and evaporation each time the seal breaks. Small ampoules frustrate when setting up multistage syntheses or instrument calibrations—forcing frequent reordering or overuse. Our chosen bottle size fits into standard chemical storage cabinets and balances cost per use, especially for chemistry departments, engineering research groups, and industrial customers validating processes.
Pure aniline raises genuine health and safety concerns; many of our engineers spent years working at fume hoods and on plant floors before moving up to process oversight. While we refine for minimal impurities, base safety doesn't waver: Every bottle that leaves our site comes in certified glass with leak-proof seals, tamper evidence, and full batch traceability. Clear warning labels and handling guides draw from real-world lab lessons, not just regulatory requirements. We keep open lines with university and industry partners, solving real questions about safe workflow setups and minimizing accidental exposure.
Deploying technical-grade aniline, common in bulk manufacturing but variable in performance, introduces uncontrolled risks into specialized synthesis and analysis. Ceramic pigment makers or bulk dye blenders may tolerate a few tenths of a percent contamination; people running spectrophotometric calibration curves or critical organic synthesis cannot. Laboratory CP (chemically pure) grades may serve basic teaching or demonstration but show batch-to-batch variation—something our process control group worked hard over the years to prevent in our AR products. We engineer deeper purity, lower trace metal concentration, and steadier color stability for high-sensitivity work.
Some aniline products appear similar on a datalog, but differences jump out when used in the lab: Solvent residues or excess moisture mask reaction endpoints, generate off-odors, or foul sensitive glassware. Our many years as direct manufacturers mean those “small” issues never go unaddressed. Reproducibility, in our view, comes from listening to both our own technicians and the chemists who rely on our chemical every day. The system we built responds to their observations—when a customer reports a new application or finds an unexpected bottleneck, we adapt our process and documentation, not simply offer an apology and move on.
One common pain for labs storing aniline: It tends to oxidize, taking on color and increasing impurity levels, especially if oxygen or once-opened bottles stay stored for months. Through refined filling and capping technology, our 500ml bottles extend life without resorting to stabilizer additives that could compromise experimental purity. Regularly, we follow up with large-quantity users to update them on ideal storage temperatures, container reuse, and safe transfer protocols, since we recognize that guidance shouldn’t end at the loading dock. Feedback from real users led us to make subtle improvements to stopper design and secondary packaging, limiting accidental exposure and vapor loss.
Supply shocks and changing regulations in base chemical plants affect everyone in the chain, but we’ve shielded customers by holding independent stocks of both raw and finished aniline. Direct relationships with major feedstock producers, grown from long negotiation and mutual inspection, proved critical through periods of global shortage or regulatory change. These experiences drive us to invest further in local and regional supply security, so that downstream users in research or specialty synthesis aren’t left waiting during disrupted seasons.
AR Aniline 500ml sees use across a remarkable spread: synthetic organic chemists target aromatic amine functions, engineers create polyurethane precursors, water analysis labs examine nitrite levels. Each task puts stress on product integrity in different ways. Dye formulation, for instance, demands that aniline acts as both substrate and controlling amine. In pharmaceutical testing, downstream analytic accuracy depends on low background impurities that otherwise muddle HPLC or GC results. Handling and repeatability concerns from early users have led to tweaks in cap materials, label design, and guidance notes, so working chemists can open, dilute, and apply the product with confidence.
As active participants in chemical innovation, we see the tight timelines and unpredictable needs that researchers and pilot plant chemists navigate. Whether a customer faces unexpected surges in usage, requires off-hours delivery, or hits a calibration snag, our technical advisors step in. Questions like “What batch-to-batch lot deviations have users reported?” or “How stable is the aniline after repeated bottle opening?” aren’t left to automated responses; they reach chemists with hands-on experience. We back what we sell, because many on our team spent years in similar benches and plants, encountering these pain points first-hand.
Recent years have brought heightened scrutiny of raw materials, especially in regulated environments and advanced development labs. Every AR Aniline 500ml bottle grants clear batch traceability, with access to certificate-of-analysis data that tells more than just basic purity. Spectral data, moisture results, and even remarks on trace impurity findings build trust across supply relationships. We recognize how much rides on transparency—one untracked impurity or questionable batch origin can cost researchers and manufacturers, threatening result validity and intellectual property. Our team maintains open communication lines, ready to supply supplementary documentation, submit sample splits, or arrange clarifying analysis in response to end-user review.
Markets shift fast: new regulatory requirements, updated occupational safety levels, and increased awareness of environmental impact push chemical makers to adapt. Through frequent dialogue with customers and industry bodies, our manufacturing team fine-tunes purification profiles and packaging to anticipate these developments. For example, recent moves to lower allowable levels of certain heavy metal traces in specialty applications led us to re-specify part of our purification flow. These aren’t abstract changes, but responses to feedback and regulatory review, managed in close coordination with laboratory partners and safety officers. Stability and compliance come not from a static product, but a platform that adjusts with the needs of those using it most.
The true worth of AR Aniline 500ml slices through marketing spin by appearing in the successful syntheses, accurate instrument runs, and eliminated trouble tickets reported back to us every quarter. Users have detailed cases where shifting to a cleaner, steadier source meant higher yields, fewer failed tests, and easier downstream separation—freeing time for deeper research and new product development. Our own R&D group frequently runs head-to-head trials against leading alternative grades; data from these tests confirm the small, steady edge from tighter control and more responsive support. We aren’t just providers, but partners in the cycles of discovery and manufacture.
Some applications call for highly specialized anilines—ultra-trace AR for low-background mass spectrometry, or pre-blended forms for automated coloring processes. We hold no illusions that one 500ml formulation solves every challenge. Our approach emphasizes honest dialogue about both capabilities and limits, built up by decades of working through unusual orders, custom purifications, and real-time troubleshooting. Where we cannot meet extreme thresholds, we disclose openly and, when possible, direct customers to a better source. This ethic doesn’t save every sale, but it forges relationships based on shared knowledge and mutual benefit.
Chemical manufacturing’s future leans toward greener, safer, and more resource-efficient practices. Our own process improvements for AR Aniline 500ml track the industry’s shift: solvent recycling, closed-loop nitrogen blanketing, and reduced energy inputs all rolled out long before regulations mandated such measures. More recently, we’ve piloted returnable glass flasks and launched technical studies on longer product shelf life, motivated both by environmental sense and customer economics. Through waste reduction and safer plant protocols, we provide a product aligned with both scientific progress and responsible stewardship.
Everything we’ve learned about aniline’s quirks and capabilities started as a problem or suggestion from someone outside our plant. Every improvement in AR grade bottling, labeling, or documentation takes root in a chemist’s shouted warning, a lab manager’s detailed complaint, or a researcher’s heads-up about a better way. Rather than wait for broad consensus or regulatory push, our manufacturing group routinely meets with users, academic collaborators, and independent labs to discuss pain points and brainstorm upgrades that serve real conditions. These lessons learned feed directly into product development cycles, keeping our operation in step with fast-evolving lab and process needs.
AR Aniline 500ml reflects decades of continuous refinement—investing in better analytical methods, engaging directly with users, and refusing to cut corners as industry pressures have changed. Authentic manufacturing, with all its troubles and rewards, sits at the center of what we do. For organic chemistry, industrial research, and analytical development, the edge comes not from abstract claims but day-in, day-out attention to how each bottle performs and supports the work being done across the globe.
