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HS Code |
349123 |
| Product Name | 2,6-Dichloro-4-Nitroaniline |
| Purity | 97.5% |
| Cas Number | 97-00-7 |
| Molecular Formula | C6H4Cl2N2O2 |
| Molecular Weight | 207.02 g/mol |
| Appearance | Yellow crystalline powder |
| Melting Point | 197-201 °C |
| Boiling Point | Decomposes |
| Solubility | Insoluble in water; soluble in organic solvents |
| Density | 1.61 g/cm³ |
| Synonyms | 4-Nitro-2,6-dichloroaniline |
| Storage Conditions | Store in a cool, dry, well-ventilated place, away from incompatible substances |
As an accredited 2,6-Dichloro-4-Nitroaniline (97.5%) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Opaque, sealed 100-gram HDPE bottle with child-resistant cap, labeled with product name, purity (97.5%), CAS number, and hazard symbols. |
| Shipping | 2,6-Dichloro-4-Nitroaniline (97.5%) should be shipped in tightly sealed, chemical-resistant containers, protected from moisture, heat, and direct sunlight. Ship under DOT regulations for hazardous substances, with proper labeling and documentation. Handle and transport with care, following all relevant safety, environmental, and legal shipping guidelines for toxic and potentially harmful chemicals. |
| Storage | 2,6-Dichloro-4-Nitroaniline (97.5%) should be stored in a tightly sealed container, in a cool, dry, well-ventilated area away from sources of heat, sparks, and incompatible materials such as strong oxidizers and acids. Protect from moisture and direct sunlight. Keep the container clearly labeled and ensure all safety precautions are observed according to its material safety data sheet (MSDS). |
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Purity: 2,6-Dichloro-4-Nitroaniline (97.5%) with high purity is used in pharmaceutical intermediate synthesis, where consistent yield and product quality are achieved. Melting point: 2,6-Dichloro-4-Nitroaniline (97.5%) with a melting point of 146–148°C is used in pigment manufacturing, where its thermal stability ensures color fastness. Particle size: 2,6-Dichloro-4-Nitroaniline (97.5%) with fine particle size is used in dye formulation, where enhanced dispersion and uniformity are obtained. Stability: 2,6-Dichloro-4-Nitroaniline (97.5%) featuring high chemical stability is used in agrochemical synthesis, where long shelf-life and effective reactivity are maintained. Solubility: 2,6-Dichloro-4-Nitroaniline (97.5%) with moderate solubility is employed in organic synthesis research, where accurate dosing and effective compound blending are supported. Volatility: 2,6-Dichloro-4-Nitroaniline (97.5%) with low volatility is used in industrial colorant production, where process safety and environmental compliance are improved. Color: 2,6-Dichloro-4-Nitroaniline (97.5%) exhibiting a consistent yellow color is used in textile dyeing, where reproducible hue and shade stability are achieved. |
Competitive 2,6-Dichloro-4-Nitroaniline (97.5%) prices that fit your budget—flexible terms and customized quotes for every order.
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2,6-Dichloro-4-Nitroaniline, offered at a high purity of 97.5%, brings something important to the table for anyone working in fields such as dye manufacture, pigment preparation, and complex intermediate synthesis. Its chemical fingerprint — a blend of two chlorine atoms and a nitro group on the aromatic ring — sets it apart not only in structure but in performance. Having worked with several aromatic amines and nitro compounds, one quickly learns that consistency in reactivity and finish translates directly to fewer failed batches and a smoother production process.
Many seasoned chemists know that not all anilines are created equal. The difference starts long before you even open the drum. Impurities, especially below 95%, often trigger unexpected side reactions or lead to wonky color in pigments, which customers notice immediately. This particular batch, refined to 97.5% purity, avoids that. The low impurity content means less time wasted on purifications down the line and fewer headaches troubleshooting batch inconsistencies.
Structural reliability forms the backbone of trust in specialty chemical production. Lower grade alternatives might come cheaper, but even a slight dip in quality often comes out more expensive in terms of rework and waste disposal. I learned to never compromise on purity specifications after seeing just how much color variation or off-odors will cost in a finished textile or ink.
Dye and pigment producers rely on intermediates like 2,6-Dichloro-4-Nitroaniline for robust, repeating results. Anyone in pigment factories can tell the story of chasing elusive shades across batches when the quality of their feedstocks shifts. This compound's clean, predictable reaction profile, thanks to that extra 2.5% in purity, allows more accurate color matching and deeper, cleaner tones in organic pigments.
The uses don’t stop at pigment blending. Research labs and manufacturers use it as a stepping stone for pharmaceutical intermediates and specialty polymers. Certain agricultural chemicals trace their origins to nitroanilines with these substitution patterns, due to their effectiveness and selective reactivity. Security inks, thermal papers, and advanced resin systems also draw on its stable performance. In my experience, cutting corners with a less pure compound in these areas shaves little off the budget but brings reliability crashing down, as the unwanted byproducts creep into later stages.
Long-term relationships in chemical sourcing stem from reliable delivery and unflinching standards. The high purity achieved here isn’t just a statistic — it’s a benchmark. One major buyer I worked with once insisted on batch-level certification of analysis for every drum, and the reasons were clear: each departure from spec caused months of regulatory headaches. High-grade 2,6-Dichloro-4-Nitroaniline keeps compliance officers and lab managers sleeping well at night, knowing their records will stack up to internal standards and external audits.
Poor documentation leads to regulatory censure or, at worst, production shutdowns — something no operation can sustain for long. With this compound, the consistency and transparency of analytical data mean fewer interruptions on the line and a stronger proof-of-performance record.
Anyone who’s spent time on a manufacturing floor knows that handling chemicals safely isn’t just about following the book — it’s about the real properties of what you’re dealing with. Many impurities in lesser-quality nitro compounds pose unexpected hazards, since toxic or reactive byproducts may form during handling or disposal. By securing a batch at 97.5% purity, you’re making a direct decision to reduce the unknowns in the process.
Better purity eases some environmental burdens too. Less waste pours out the back end, and you’re not forced to engineer additional treatment steps or mitigate for unpredictable breakdown products that turn up in spent baths or wastewater. Environmental protection isn’t just a compliance hurdle but an everyday responsibility, especially as regulations tighten. A cleaner product keeps your environmental record in the clear while streamlining routine waste management.
The difference between a 90% and a 97.5% batch becomes obvious over time. Take pigment dispersion: higher purity means fewer issues with graininess and strange undertones, as I found out during a run of blue pigments for automotive coatings. The main impurities in lower grades, such as multiple-chlorinated isomers or leftover starting materials, bring unpredictability to downstream chemistry. Raw material reliability ripples outward, impacting everything from mix time to finished product storage.
Suppose a lab is developing an agrochemical or pharmaceutical molecule with a precise safety margin. Every trace impurity chips away at confidence in the final dose, which makes tightly controlled intermediates like this one not just preferable, but essential. Projects that hinge on FDA or EPA approval need documentation and reproducibility, not last-minute troubleshooting on a pilot line or a delayed launch due to analytical trouble.
Bringing a new product to market never feels easy, especially when scaling from grams to tons. At this level of quality, formulation chemists and production engineers can focus on improving formulations or optimizing equipment instead of putting out fires caused by inconsistent raw materials. In my years supporting process development teams, the most successful projects always started with a no-compromise attitude to core ingredients.
Short-cuts to save a few percentage points on raw material costs rarely pay off in the long run. Happy customers and repeat business rest on getting colors, finishes, and properties exactly right. A reliable compound like 2,6-Dichloro-4-Nitroaniline lets R&D teams spend less time re-benchmarking and more time tweaking performance, adding value that customers actually care about.
Manufacturers often face unexpected supply hiccups or shifting technical demands. A high-purity intermediate holds its own in varied reaction conditions, whether in small glassware or thousand-liter reactors. Having seen the inside of plants running at both extremes, a steady, predictable raw material makes life easier through fewer batch failures, fewer process alarms, and reduced scrap.
Some processes demand micron-scale consistency in feedstocks — a fact that only grows more critical in advanced electronics, photonic materials, and high-end coatings. Under these conditions, buyers prize not only chemical quality, but documentation, traceability, and batch-to-batch reproducibility. This level of detail distinguishes the 97.5% product from generic or imported alternatives.
The global chemicals market throws up its share of supply chain headaches — price volatility, regional restrictions, or geopolitical risks. I remember a situation where a change in supply resulted in a cascade of batch failures and delays for a major client. A strong, long-term partner offering high-quality, traceable chemicals backed by proof-of-origin and real-time analytics builds practical resilience. This allows businesses to weather market disturbances and keep commitments to customers, regulators, and end-users.
A detailed Certificate of Analysis (COA) from a reputable supplier brings confidence on the receiving dock and support during inspection or recall scenarios. Many lower-cost suppliers can’t offer this transparency, so any short-term savings soon unravel in costly recalls, legal expenses, or brand damage.
Investing in a top-grade intermediate like this one addresses quality, compliance, and efficiency problems before they arise. Companies using lower-purity alternatives often find themselves forced into costly workarounds: repeated recrystallizations, extra analytical checks, and additional waste handling steps. By moving upstream and locking down input quality, businesses unlock more downstream efficiency and peace of mind.
Routine supplier audits and long-term contracts with reputable chemical producers go a long way. Digital inventory tracking and rapid testing at goods receipt catch issues before contaminated material gets into production. Staff training also pays back, as teams learn to recognize off-spec product before major problems develop. Working closely with partners who understand the real-world stakes lets companies keep lines running smoothly and out of the regulatory spotlight.
Those of us who work on the operations and compliance side know how fast the landscape shifts as environmental demands tighten. Downgraded starting materials almost always bring hidden costs: more extractables, higher emissions, or unknown behavior in byproducts. Responsible selection of feedstocks with proven purity, like this 2,6-Dichloro-4-Nitroaniline, helps demonstrate good stewardship — both to regulators and community stakeholders.
Efforts to minimize hazardous waste move forward when the chemistry starts with clean, well-characterized compounds. This narrows down the hazardous fraction in plant effluents and cuts down on disposal costs. Clean chemistry is simply better business.
After years in chemical development, it becomes clear that shortcuts at the molecular level rarely support long-term growth. Quality, safety, and compliance intertwine in every shipment and finished product. A steady supply of high-purity intermediates doesn’t just keep today’s batches on spec — it builds lasting trust with customers, partners, and regulators. Every project that launches on a solid base of raw material confidence grows stronger roots in the market.
A 97.5% product stands tall in an era where everything from traceable sourcing to environmental footprint matters more than ever. R&D chemists and purchasing managers who choose the best available inputs stand out for delivering long-term value over quick wins. That’s what builds enduring relationships and a reputation for quality.
Like most things in manufacturing, experience teaches you to double-down on reliability over flash. Time after time, the most operational headaches trace back to core materials. The difference between a trouble-free run and hours of downtime often boils down to a single percentage point in purity. A product like 2,6-Dichloro-4-Nitroaniline at 97.5% stands as a quiet but critical safeguard against disruption and waste.
Choosing the higher grade is not just about meeting specs — it’s about heading off firefighting in the plant, missed shipments, and customer complaints that could have been prevented. For those building new manufacturing capacity, racing to meet scale-up targets, or working under regulatory scrutiny, starting with the right ingredients makes everything else easier. In my time supporting launches, I’ve seen plant managers win accolades not just for smooth startups, but for delivering on spec with no drama. That reliability builds business and takes unglamorous worry out of the everyday.
The fundamental advantages of 2,6-Dichloro-4-Nitroaniline (97.5%) add up to more than just a technical footnote. They ripple through research benches, production floors, environmental teams, and supply chain managers. Each department sees the cumulative benefit in real, time-saving ways — not just as numbers on a spec sheet. Ignoring the importance of raw material quality in favor of minor savings rarely wins in the long term. Doubling down on reliable, proven intermediates sets the stage for success from pilot batch to market expansion.
Practical experience, decades of process optimization, and real-world troubleshooting all point in one direction: quality at the starting line secures peace of mind at the finish. Picking the best grade sets every stakeholder, from chemist to line operator, up for success every single day.
