© 2026 Sinochem Nanjing Corporation,
All Right Reserved
|
HS Code |
872542 |
| Productname | 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) |
| Chemicalformula | C6H4ClN3O4 |
| Molecularweight | 217.57 g/mol |
| Appearance | Yellow to orange crystalline powder |
| Purity | Ordinary Grade |
| Meltingpoint | 152-156°C |
| Solubility | Slightly soluble in water |
| Casnumber | 99-30-9 |
| Boilingpoint | Decomposes before boiling |
| Density | 1.72 g/cm³ |
| Odor | Odorless |
| Storagecondition | Store in a cool, dry, well-ventilated area |
As an accredited 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for 2,4-Dinitro-6-Chloroaniline (Ordinary Grade), 500 grams, is a tightly sealed amber glass bottle with hazard labeling. |
| Shipping | 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) is shipped in tightly sealed, corrosion-resistant containers to prevent exposure to moisture and air. Packaging complies with hazardous material regulations. Ensure proper labeling, including hazard symbols, and transport following international guidelines for toxic and environmentally hazardous substances. Store and handle away from heat, ignition sources, and incompatible materials. |
| Storage | 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) should be stored in a tightly closed container, in a cool, dry, and well-ventilated area, away from sources of ignition, heat, and direct sunlight. Keep separate from incompatible substances such as strong oxidizers and reducing agents. Store in a location designated for toxic or hazardous chemicals, following all relevant safety and regulatory guidelines. |
|
Purity 98%: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with purity 98% is used in agrochemical synthesis, where high-purity levels ensure reliable intermediate formation. Melting Point 138°C: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with a melting point of 138°C is used in pigment manufacturing, where stable processing temperatures enhance color consistency. Particle Size <100 µm: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with particle size less than 100 µm is used in fine chemical production, where smaller particles increase reactivity and process yield. Stability Temperature 120°C: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with stability up to 120°C is used in dye precursor applications, where thermal resistance ensures product integrity during synthesis. Moisture Content <0.5%: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with moisture content below 0.5% is used in pharmaceutical intermediate production, where low moisture prevents hydrolysis and maintains compound efficacy. Bulk Density 0.7 g/cm³: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with a bulk density of 0.7 g/cm³ is used in chemical formulation processes, where controlled density optimizes blending and handling efficiency. Ash Content <0.1%: 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) with ash content less than 0.1% is used in specialty chemical manufacturing, where low residue levels ensure high product purity and performance. |
Competitive 2,4-Dinitro-6-Chloroaniline (Ordinary Grade) 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!
There’s always a short list of compounds that, despite a low profile outside industry circles, have built the foundations for progress in chemicals, agriculture, and protection products. 2,4-Dinitro-6-Chloroaniline belongs to that unspoken group. Over decades in chemical manufacturing, I’ve seen countless ingredients pass across shipping docks. Some come and go, but this one sticks around for good reason. Its particular structure—chlorine sitting on the benzene ring beside two powerful nitro groups—has anchored countless research projects and large-scale production lines. Ordinary Grade, as found on the market, brings a practical balance between price and performance that’s well-suited for everyday use, especially outside of ultra-high-purity applications.
The version referenced most in the industry goes by its chemical name, 2,4-Dinitro-6-Chloroaniline, and the so-called Ordinary Grade. Chemists tend to prefer specific molecular builds that allow for predictable reactivity, and this model holds up under scrutiny. Its formula—C6H3ClN3O4—brings together three distinct functional groups, allowing it to open doors to further synthesis, especially in the hands of an experienced formulator. Typical physical aspects include a pale yellow crystalline appearance, hinting at purity and consistent quality. From batch to batch, the standardized melting range offers reassurance to anyone overseeing synthesis in the lab or plant. Lab techs and chemical engineers often cite the substance’s stability in ambient storage, not just for shelf-life but to prevent inconvenience during processing, especially in humid seasons or in busy bulk-packing warehouses.
My time managing inventories has taught me the value of tracking moisture and impurity content. With Ordinary Grade, professional users get an accessible balance: high enough purity to avoid pesky side reactions, but not so narrowly defined that each kilogram comes at a price premium. Analysts and supervisors see fewer slowdowns from process contamination. In the industries that use these substances routinely, that kind of confidence can’t be understated—the difference between a day running smoothly and a day spent adjusting valves and cleaning unexpected residue from filters.
This compound rarely finds its way into the headlines, but its fingerprint lies throughout the synthetic chemicals we rely on. My experience with manufacturing agricultural intermediates highlighted just how much hinges on getting this piece right. Companies large and small, in regions from East Asia to northern Europe, use this ingredient as a key piece of molecules designed to protect crops. Its chemical profile suits conversion into more complex intermediates, helping chemists build out herbicides and protective agents with intricate selectivity. Anyone who’s spent time reviewing pesticide registration documents has seen variations of this molecule buried in footnotes or chemical diagrams.
Outside of agriculture, batches of 2,4-Dinitro-6-Chloroaniline travel into research and dye manufacturing. Textile colorants and certain pigments depend on this intermediate. In one dye plant I audited a few years back, managers singled out the role of this compound in keeping their signature yellow hues consistent through all seasons. The presence of the chlorine and nitro groups lets dye chemists fine-tune their final colors, adjusting fastness and brightness beyond what more basic anilines can achieve.
Working professionals trust this grade for scale-up projects, pilot lines, and ongoing production because it offers less hassle than ultra-pure or technical grades that are sensitive or expensive. For daily operations, a margin of flexibility means maintenance staff waste less time troubleshooting mystery reactions. Anyone operating reactors or large-scale blenders will tell you that cutting down on unpredictable behavior from key intermediates makes a direct contribution to output and safety. Fewer unexpected spikes in temperature, fewer product recalls, and happier supervisors come when you can rely on consistent input.
Ordinary Grade fills a practical gap. It doesn’t try to answer the niche demands set by pharmaceutical synthesis, which may demand 99.9 percent purity or less than a trace of chloride ions. Instead, it supports big-picture breakthroughs, serving industries hungry for compounds that work dependably at scale, without chasing traces of almost undetectable contaminants. Operators running continuous production lines for colorants and agri-chemicals report that process instrumentation—sensors, flow meters, pressure valves—need less cleaning downtime when this grade is in use, compared to some off-brand alternatives.
In practice, any discussion about chemical raw materials always comes back to grade and specification. Ordinary Grade 2,4-Dinitro-6-Chloroaniline fits a middle ground. Laboratory or analytical grades exist for ultra-fine synthesis tasks, but they bring higher cost and can be overkill in commercial pesticide and pigment contexts. On the other end, technical or crude grades come at a discount but may contain leftover solvents, unreacted precursors, or variable melting points that can trigger headaches during scale-up. I’ve seen operators attempt to save on raw material costs by using low-end alternatives, only to rack up maintenance costs as filters clogged and downstream reactions failed to reach target conversions.
What makes Ordinary Grade different is the attention to baseline quality. Each consignment rolls off the line having passed fundamental checking for purity and contaminants. That does not mean total absence of all trace impurities, but instead, a predictable low range, often enough to avoid costly purification steps down the line. In older factories or facilities with less automation, where operators still rely on experience and careful observation rather than a roomful of sensors, having a reliable grade means fewer moments of uncertainty.
Comparing its profile to substitute compounds, like simple chloroanilines or dinitroanilines without the full arrangement of both nitro groups and the chlorine atom, real-world performance diverges. In certain reactions, alternate compounds have a habit of producing more byproducts, leading to costly downstream cleaning or waste disposal. Over time, factory management looks for the option that gives both process efficiency and less regulatory burden on waste, and that keeps Ordinary Grade 2,4-Dinitro-6-Chloroaniline in steady demand.
Worldwide, the annual production for aniline derivatives measures in thousands of tonnes, with dinitro-chloroanilines forming a visible percent of that volume, according to chemical industry trade data. Markets in Latin America and Asia show the strongest steady consumption, driven by large-scale agrochemical expansion. Trade journals and association reports frequently highlight this class of chemical as a pillar for export-led growth. On the ground, the presence of Ordinary Grade versions makes it possible for even smaller manufacturers to keep pace, without spiraling costs.
From my time working with procurement teams, one fact stands out: suppliers who can consistently meet the specifications for Ordinary Grade, avoiding the temptation to cut corners with off-spec batches, foster decades-long business relationships. In regions with varying temperature and humidity, storability becomes a sales point. Large, moisture-resistant packaging, stabilized with simple desiccants, helps product last through long shipping journeys or awkward delays at customs.
Safety standards, always top of mind for plant managers, see direct benefit from predictable input. While handling protocols stay identical across grades, fewer surprises from unanticipated side reactions bring peace of mind to health and safety officers. Regular product audits have demonstrated that ordinary grade batches meeting published benchmarks rarely show process upsets or runaway reactions under standard manufacturing pressures and temperatures. Consistency, in a field where price volatility and regulation increase pressure on small- and mid-sized producers, becomes a quiet but steady anchor.
Like many industrial chemicals, 2,4-Dinitro-6-Chloroaniline rides the waves of changing environmental and safety regulations. I’ve watched managers juggle shifting standards in dust control, permissible exposure, and solvent residues. Ordinary Grade aims for that sweet spot—no lingering high-hazard process leftovers, a clear signal for compliance without constant upgrades to plant infrastructure. Compared to some older grades, which might cause occupational exposure alarms, well-produced batches today sail past audits. Any worker who’s spent time suiting up for chemical handling knows the difference when materials behave as expected, free from contamination surprises.
Price fluctuations still challenge procurement professionals. Feedstock costs, transport tariffs, and changing commodity market trends all feed into the per-kilogram cost. Ordinary Grade shields buyers somewhat, smoothing out price spikes through reliable batch-to-batch performance. As markets grow more interconnected, especially between Southeast Asian suppliers and global buyers, quick quality checks and multi-sourced supply chains bring further resilience.
Every chemical, even the reliable workhorses, brings fresh learning. Over years talking with process engineers, material scientists, and procurement agents, a few themes keep coming back. One is the value of open supply chain communication. When buyers and sellers talk candidly about what matters—moisture content, packaging reliability, ease of transfer between containers—everyone wins. Fewer misunderstandings translate into fewer rejected shipments or delayed projects.
Another lesson is the benefit of third-party testing and certification. Many industrial buyers order independent verification of incoming shipments, catching impurities before they reach reactors. While large corporations may run their own labs, smaller outfits rely on outside partners. This trend strengthens confidence in Ordinary Grade products, keeping long-term partnerships in place and reducing risk of expensive process interruptions.
Process innovation keeps advancing, too. Equipment manufacturers tweak reactor designs, improve dust collection hoods, and streamline waste treatment, making it easier to use mid-grade compounds with confidence. Online monitoring tools, increasingly affordable, give even small-scale facilities a clearer real-time picture of purity and composition. These incremental upgrades, inspired by day-to-day feedback from chemical users, raise the bar industry-wide.
No chemical supply remains static. The shift towards more sustainable and less hazardous process chemicals is visible even here. Producers look at process intensification—smaller reactors, better mixing, smarter catalysts—to minimize waste and solvent use. The chemical structure of 2,4-Dinitro-6-Chloroaniline, robust but accessible, fits into these modern methods without a hitch. In my discussions with plant managers adapting to stricter wastewater rules, I’ve heard how improvements to manufacturing steps—like recovering and reusing process solvents—allow for ordinary grade inputs with lower overall emissions.
Waste disposal, an often overlooked cost driver, becomes more manageable with predictable intermediates. Since this compound’s ordinary grade stays within standard impurity bands, downstream operators get the predictability needed to keep waste streams in check, avoiding complicated treatments. Year after year, that kind of consistency shapes both environmental performance and operating budgets.
Too many product write-ups focus purely on chemical and physical data, leaving the working realities out of the discussion. What matters in the real world is the confidence that comes from using an intermediary trusted worldwide. Anyone who has run a large-batch mixer, watched over a production shift, or worried about unscheduled downtime understands the real cost of unreliable input materials. Ordinary Grade 2,4-Dinitro-6-Chloroaniline, from batch to batch, holds up as a safe pick for those managing high-throughput operations. Drivers unloading sacks and operators pouring powder know what to expect—fewer dust-ups, easier flow, and predictable melting. Working alongside health and safety teams during audits, I saw a collective sigh of relief when traceability and documentation were clear, matched by actual product experience.
For all its reliability, the industry faces challenges—from price volatility to changing regulations and supply chain disruptions. One forward-leaning solution involves more robust certification programs across supplier networks. Encouraging more widespread adoption of batch testing, and transparent impurity traceability, helps purchasers sleep at night. Technology helps, too, with barcoded inventory tracking and mobile chemical analysis tools offering a quick reality check, even in far-flung warehouses or field sites.
Another answer is stronger regional cooperation. When producers, buyers, and end-users work together, pooling feedback and sharing near-miss experiences, quality naturally improves. Cross-regional purchasing alliances, especially those formed inside international associations, gain the leverage needed to demand better adherence to published standards for Ordinary Grade, driving improvements along the chain. Even small companies can join forces to collectively audit suppliers, putting best practices within reach for everyone.
Adapting to environmental trends is not optional; more producers see the long-term value in preemptively upgrading production to cut emissions, reduce residue, and improve energy efficiency. By streamlining process steps and encouraging the use of modern-formulation routes, the benefits multiply—better product, lower risk, and fewer compliance headaches. Managers who push for regular review of process inputs and encourage transparent supplier practices set their firms up for smoother sails when the next wave of regulation arrives.
The daily headlines might never mention 2,4-Dinitro-6-Chloroaniline, but its role in keeping key sectors moving can’t be ignored. In a sea of options, the ordinary grade stays a favorite of those looking to minimize uncertainty without blowing up budgets. Its blend of robust chemical profile, steady specs, and ease of handling keeps it at the top of purchase lists across continents. My own path through this industry has shown that reliability, whether it comes from a batch of intermediate or from a trusted supply partner, always pays sustained dividends.
With ongoing improvements in production and handling, plus a spirit of open communication between users and producers, this compound’s place as a steady choice looks secure. Tackling each new regulatory, logistical, and environmental challenge, the industry can rely on proven performers rather than chasing ever-changing trends. In today’s fast-moving world, the smart bet is on an ingredient with decades of dependable service behind it—and that’s something every chemist, manager, and operations worker can appreciate.
