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HS Code |
737563 |
| Chemical Name | O-Dichlorobenzene |
| Synonyms | 1,2-Dichlorobenzene, ortho-Dichlorobenzene |
| Cas Number | 95-50-1 |
| Molecular Formula | C6H4Cl2 |
| Molecular Weight | 147.00 g/mol |
| Purity | ≥99.0% |
| Appearance | Colorless to pale yellow liquid |
| Melting Point | -17°C |
| Boiling Point | 180°C |
| Density | 1.30 g/cm³ (20°C) |
| Vapor Pressure | 0.34 kPa (20°C) |
| Solubility In Water | Insoluble (<0.1 g/100 mL at 20°C) |
| Flash Point | 66°C (closed cup) |
| Refractive Index | 1.552 (20°C) |
| Autoignition Temperature | 648°C |
As an accredited O-Dichlorobenzene (≥99.0%) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 L amber glass bottle with secure screw cap, labeled for O-Dichlorobenzene (≥99.0%), hazard symbols, and manufacturer details. |
| Shipping | O-Dichlorobenzene (≥99.0%) is shipped in tightly sealed containers, protected from moisture and heat. Classified as a hazardous material, it requires DOT-approved labeling and documentation. Transport follows all regulatory guidelines for flammable liquids, ensuring safety during storage and transit. Proper ventilation and handling precautions are required to prevent exposure and spills. |
| Storage | O-Dichlorobenzene (≥99.0%) should be stored in a tightly closed container, in a cool, dry, and well-ventilated area, away from heat, sparks, and open flames. Keep away from incompatible substances such as strong oxidizing agents. Store in a chemical storage cabinet designed for solvents and ensure proper labeling. Avoid direct sunlight and minimize exposure to moisture. |
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Solvent: O-Dichlorobenzene (≥99.0%) is used in pesticide formulation processes, where its high purity ensures efficient dissolution and homogeneous active ingredient distribution. Intermediate: O-Dichlorobenzene (≥99.0%) is used in the production of agrochemical intermediates, where its controlled molecular weight streamlines further synthetic steps. High Boiling Point: O-Dichlorobenzene (≥99.0%) is used as a heat transfer medium in chemical reactors, where its elevated boiling point enables stable thermal control. Stability Temperature: O-Dichlorobenzene (≥99.0%) is used in polymer processing, where stability at elevated temperatures minimizes decomposition and enhances product consistency. Purity: O-Dichlorobenzene (≥99.0%) is used in dye manufacturing, where superior purity results in enhanced color yield and reduced impurities in final products. Aromaticity: O-Dichlorobenzene (≥99.0%) is used as a precursor in specialty organic synthesis, where its high aromatic content ensures target structural integrity. Melting Point: O-Dichlorobenzene (≥99.0%) is used for recrystallization of chemicals, where the precise melting point facilitates selective purification. Density: O-Dichlorobenzene (≥99.0%) is used in density gradient centrifugation, where its consistent density enables accurate separation of complex mixtures. |
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O-Dichlorobenzene, with a purity of 99.0% or greater, stands out among chlorinated aromatics because of its balance between strength and precision. It’s easy to overlook how much a single compound can shape daily operations and product lines, but o-dichlorobenzene’s versatility cements its role on the factory floor and in specialty shops alike. The powerful solvent capabilities and its comfortable fit within various chemical syntheses give production teams real flexibility. For industries processing dyes, pharmaceuticals, pesticides, and polymers, this product becomes a trusted workhorse.
From my years working with chemical suppliers and research teams, there’s always anxiety about purity variance creeping into batches. Many companies get stung with inconsistent grades. Here, o-dichlorobenzene at ≥99.0% sets a bar for reliability. That level of quality allows researchers and technicians to focus on the next problem, not on troubleshooting mysterious results caused by impure feedstocks. Projects run smoother when you don’t need to keep re-validating the basics, and control labs can pull routine checks without bracing for surprises.
There’s a directness to the way o-dichlorobenzene works as a solvent in the pigment and dye industry. As someone familiar with textile processing and color chemistry, I’ve seen its impact firsthand. Dispersing bright, unforgiving dyes or dissolving residues off equipment, o-dichlorobenzene’s strong solvency removes stubborn organic and inorganic materials efficiently, even those that laugh in the face of lesser solvents. Its high boiling point means it doesn’t quickly evaporate, offering time and control during tricky procedures. Pesticide manufacturing, another major user, leans on it for its ability to help blend compounds that resist dissolution.
Pharmaceutical synthesis cannot afford impurities disrupting reactions. Take, for example, the rigid standards in manufacturing antihistamines or other essentials. Having access to o-dichlorobenzene at the right purity means integrity in the final medication. The polymer field, too, relies on its robust chemical properties for producing engineering plastics and specialty resins. Engineers appreciate a batch that doesn’t veer from spec, as every off-note causes headaches down the supply chain. It isn’t just about technical performance but keeping timelines and costs under control.
It helps to talk about distinctions. Some will ask if parachlorobenzene could do the trick, or if a lower-purity version would cut it. Deciding comes down to end-use and tolerance for risk. O-Dichlorobenzene contains its two chlorine atoms on adjacent positions of the benzene ring, which leads to its own reactivity and solvency profile. That’s not just a bit of chemistry trivia. Both molecular layout and purity can influence everything from melting and boiling points, to how well it dissolves stubborn organic residues or blends with other aromatic compounds. Para- and meta- forms have value in different corners of chemical manufacturing, but their physical properties shift the moments when you reach for each bottle.
I’ve seen cases where switching from a lower-purity o-dichlorobenzene to a ≥99.0% grade dramatically reduced yield losses in dye extraction and kept residue in reactors to a minimum. You don’t need to be a chemical engineer to appreciate the long-term savings this brings, both in material costs and in the man-hours spent battling process hiccups. Bottom line, corners cut with purity often end up costing more over time, even if low up-front pricing looks tempting.
The science is clear: in most reactions, each impurity can act unpredictably. Whether as a catalyst poison, unwanted reactant, or a stumbling block in purification, even a fraction of a percent carries outsized impact. While technocrats may trade stories about how they once “made it work” with a lower-grade solvent, there’s a reason nearly every respected guideline or regulatory body insists on high-purity chemicals, especially when used near food, medicine, or fine electronics.
Speaking from experience, regulatory audits or product recalls are career-defining events for plant managers. It’s not just about paperwork—contamination leaves marks that sometimes never get scrubbed off reputations. That’s one reason why the ≥99.0% benchmark isn’t window dressing. It shields your products and team from the fallout of preventable issues. In pharmaceutical or food production, even a single contaminated batch can cause ripples that reach lawyers, the media, and sometimes, the hospital floor.
There’s a growing shift across sectors to demand better environmental stewardship and workplace safety. Strict standards for purity play a part here. Lower-grade o-dichlorobenzene can include side-products or heavier halogenated compounds, raising toxicity. At high purity, plant safety teams get a clearer picture of risk management protocols and waste treatment. The typical user knows o-dichlorobenzene brings its own hazards—it’s never a household chemical and requires real respect for PPE, ventilation, and safe storage. But unnecessary exposure to mystery byproducts is a line nobody needs to cross.
From decades of reports and case studies, high-purity stocks cut down on accidents traced to unexpected reactivity or byproducts. Many chemical plants now embrace transparent disclosure around raw material purity. Workers thank you for it, and insurers sleep better, knowing risk models are based on known quantities. Cleaner waste streams, fewer incidents, and simpler compliance reports make life in the lab and on the production line less stressful.
O-dichlorobenzene comes as a clear liquid, typically colorless to faintly pale, with a distinctive aromatic smell. At ≥99.0% purity, its melting point typically lands around 53 degrees Celsius, and the boiling point sits near 180 degrees Celsius. With a density slightly higher than water and solid solvency for hydrophobic organics, it slips effortlessly into protocols that tackle tough resins, gums, oils, and specialty dyes.
Those working long hours in chemical storage or raw inventory know the difference between a quick calculation on paper and handling real drums on a busy dock. The right grade means less waste, easier documentation, and smoother blending—practical shifts that shape monthly profit and loss. For those looking after compliance, such as preparing documentation for REACH or TSCA reporting, having well-documented, consistent purity means fewer headaches tracking lot variations or scrubbing through error-prone histories.
It’s fair to acknowledge that chlorinated aromatics, including o-dichlorobenzene, spark ongoing debates about sustainability and toxicity. Environmental groups keep a close eye on such compounds due to concerns over persistence in the environment and potential health risks. Over decades, stricter emissions controls and better industrial hygiene have helped to curb the risks associated with its use. Fact remains, the most damage usually gets traced to cut corners, leaks, or mishandling of lower-quality materials. Where audit trails run clear and high standards are set, both workplace and environmental impacts are lessened.
For industries attempting to clean up or green their image, o-dichlorobenzene remains a challenge that demands care but also an opportunity for leadership in best practices. Investing in higher-grade stock, improving containment and recycling efforts, and moving quickly to adopt greener solvents in processes where that’s feasible all play a role. My own experience with waste minimization projects showed savings weren’t just in environmental highscores, but often translated to leaner, more manageable operations.
A managed process, from direct sourcing through to delivery, matters more in chemicals than most places. Experienced operators look for suppliers who show traceability and batch-level transparency. For o-dichlorobenzene, this means documented retention samples, open communication about purity records, and detailed certificates of analysis from credible labs. The relationship between user and vendor turns into a partnership, not a faceless transaction.
Supply chain disruptions have taught many this the hard way. Stocking high-purity o-dichlorobenzene isn’t just about running the next shift. It means resilience—flawed alternatives, rushed shipments, or substituted grades rarely hold up under stress. End-users tell those stories: running out of spec, taking product failures to customers, watching budget overruns chalked up to cleaning or failed reactions. Trusted purity provides breathing room that buys confidence, both in the lab and in the boardroom.
Businesses working with o-dichlorobenzene often find themselves balancing technical needs, safety, and sustainability. Regular investments in updated solvent recycling units reclaim a surprising percentage of spent material, lightening environmental impact and cutting costs. Setting up closed-loop transfer systems keeps emissions and worker exposure in check, and works smoothly alongside modern ergonomic drum-handling tools. Whether in batch or continuous systems, these steps pay back over time with fewer accidents, less loss, and smaller footprints.
Clean production begins with consistent inputs. By leaning on vendors with proven track records for purity and regulatory compliance, firms reduce both rework and waste. On the regulatory front, staying ahead of evolving policies on chemicals management by engaging with trade associations or industry consortia helps prepare for a future where expectations around hazardous chemicals grow only stricter. I’ve seen proactive companies turn pending legislation into business opportunities, offering cleaner products or auditing their own practices before a law ever passes.
It’s one thing to read technical papers or supplier promises, but in the field, purity plays out in concrete terms. Manufacturing plants that invest in ≥99.0% o-dichlorobenzene regularly report not only fewer process headaches but also steadier throughput and reduced downtime. Experienced process engineers quietly admit that this switch paid for itself, once all the saved batches and longer equipment lifespan are accounted for. Chemical users get more predictable crystallization, solubility, and reaction rates, lowering the need for “heroic” troubleshooting.
Feedback from teams on the ground underscores where things go right or wrong. Many recall times when minor impurities threw off yield, created new byproducts during chlorination, or complicated downstream purification steps. Pursuing high-grade o-dichlorobenzene heads these problems off before they sprout. Reliable performance isn’t luck. It’s baked into the decision to prioritize proven, consistent materials.
A key truth in research and new product development is that small gains in purity open doors to new findings. Whether synthesizing rare intermediates, developing advanced pigments, or exploring new pharmacologically active molecules, the line between breakthrough and disappointment often comes down to raw material quality. I’ve watched as colleagues pushed reactions just a little farther, all because confidence in their feedstock gave them space to test, tweak, and learn.
Academic labs and private industry alike benefit from fewer false negatives. Results are more trustworthy, reproducible, and faster to escalate up the chain. Tightening the specs on chemicals like o-dichlorobenzene streamlines method development, from pilot plant to scale-up, and shapes the next wave of products that make it into global supply chains. True innovation isn’t just about the new; it often depends on finally controlling the basics.
Growing consumer and investor pressures on traceability demand that chemical-intensive industries do more than make promises. For o-dichlorobenzene at ≥99.0%, full documentation, batch coding, and digital audit trails are becoming the norm rather than a bonus. Walking through plants that take these obligations seriously, you sense staff motivation; they don’t just hope for fewer accidents, but expect better results.
Rising global standards—whether through ISO certification, local regulatory upgrades, or market-driven demands for “clean label” status in downstream products—all point the same way. Buying high-purity chemicals and showing the receipts makes partnerships smoother, supports new customer acquisition, and reduces unnecessary re-testing.
It’s easy to view o-dichlorobenzene as just another item on a long inventory list, but its role deserves more attention given the influence it holds over product quality, process reliability, and safety outcomes. From colorants in textiles to precision reactions in pharmaceuticals, the implications of purity ripple outward. My experience across industries echoes one main lesson: investing in the right grade clears a path for progress, lowers total costs, and sharpens a team’s competitive edge.
The market for solvents and industrial intermediates will only tighten its requirements as environmental, legal, and customer-driven forces evolve. Staying ahead takes focus not just on price, but on composition, performance, and transparency. Looking to the future, o-dichlorobenzene at ≥99.0% purity stands as more than a commodity—it is a foundation for safer, more innovative, and sustainable industrial growth.
