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HS Code |
758063 |
| Chemical Name | Aniline Phthalate |
| Molecular Formula | C14H11NO2 |
| Molar Mass | 225.24 g/mol |
| Appearance | Yellow to light brown crystalline solid |
| Melting Point | 86-88 °C |
| Solubility In Water | Slightly soluble |
| Odor | Mild aromatic |
| Density | 1.23 g/cm³ (approximate) |
| Boiling Point | Decomposes before boiling |
| Cas Number | 86-85-1 |
| Stability | Stable under recommended storage conditions |
| Storage Conditions | Store in a cool, dry, well-ventilated place |
| Uses | Used as a reagent for detection of certain sugars |
| Synonyms | N-Phenylphthalamic acid |
| Hazard Classification | Irritant |
As an accredited Aniline Phthalate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Aniline Phthalate, 100g, is packaged in a sealed amber glass bottle with a screw cap, labeled for laboratory use. |
| Shipping | Aniline Phthalate should be shipped in tightly sealed containers, protected from heat, light, and moisture. Transport in accordance with local, national, and international regulations for hazardous chemicals. Ensure proper labeling, use secondary containment, and segregate from incompatible substances such as strong oxidizers or acids during shipping to prevent hazardous reactions. |
| Storage | **Aniline phthalate** should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from sources of ignition and direct sunlight. Keep it away from strong oxidizing agents and acids. Proper labeling and secure shelving are recommended to prevent spills or accidental contact. Use appropriate chemical-resistant containers and avoid exposure to moisture. |
Applications of Aniline Phthalate in Industrial ManufacturingAs a direct manufacturer of Aniline Phthalate, we focus on downstream sectors with established, real-world demand. Our material supports critical processes across several industries, with a specific role in each application pathway. Below, we detail the unique industry scenarios where Aniline Phthalate plays an integral part, addressing regulatory compliance, formulation ratios, manufacturing stages, and the final products supplied to global markets. 1. Conductive Polymer Additive for Antistatic CoatingsCoatings manufacturers frequently introduce Aniline Phthalate as a primary intermediate in the synthesis of conductive polymers for antistatic surface coatings. The compound’s aromatic amine structure interacts during in situ polymerization, yielding conductive films with consistent surface resistivity. Major industrial flooring, electronics enclosures, and cleanroom panels depend on these coatings for static control, integrating Aniline Phthalate to fine-tune electrical properties while meeting rigorous health and environmental safety requirements. Industry compliance standards
Typical usage ratio
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2. Dye Intermediate for Synthetic Leather and PlasticsWithin colorant manufacturing for synthetic leathers and flexible plastics, Aniline Phthalate functions as a building block for specific phthalocyanine and azo dye molecules. Large textile and plastics processors utilize these dyes to achieve durable, high-strength colorfastness under exposure to sunlight and abrasion, favoring Aniline Phthalate due to its stable chemical properties, consistency in hue reproduction, and compatibility with industrial pigment synthesis reactors. Industry compliance standards
Typical usage ratio
Downstream process integration
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3. Analytical Reagent in Pharmaceutical Quality TestingAPI and excipient quality control laboratories employ Aniline Phthalate as a specialized reagent for chromatographic and spectrophotometric assays—supporting the sensitive detection of carbohydrate content and other analytes in complex pharmaceutical raw materials. GMP-certified pharma manufacturers value the purity and reproducibility of our material, ensuring consistent analytical results that underpin batch release testing and regulatory compliance in both small molecule and biologic production workflows. Industry compliance standards
Typical usage ratio
Downstream process integration
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4. Plasticizer Precursor in Flexible PVC CompoundsLarge-scale plastic compounders use Aniline Phthalate as a targeted intermediate in the production of specialty phthalate plasticizers formulated for flexible PVC applications, including medical, automotive, and wire coating sectors. The material contributes to molecular customization, producing compounds with optimized migration resistance and improved thermal flexibility, which are critical for demanding end-use environments subjected to dynamic bending or prolonged outdoor exposure. Industry compliance standards
Typical usage ratio
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5. Intermediate for Polymer Stabilizer ManufactureSpecialty additive formulators utilize Aniline Phthalate to synthesize advanced polymer stabilizers, particularly hindered amine light stabilizers (HALS) and certain phthalate-phase antioxidants. These stabilizers protect polyolefins and engineering plastics against degradation from UV exposure and thermal cycles. Consistent product quality relies on the controlled reaction profile enabled by the material, which enhances initial stabilizer activity and prolongs in-use performance of polyolefin and thermoplastic articles. Industry compliance standards
Typical usage ratio
Downstream process integration
Final product types
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Manufacturing Aniline Phthalate calls on years of hands-on effort — attention at every stage turns raw raw ingredients into a true specialty ingredient. In our own facilities, the process draws from reliable phthalic anhydride and pure aniline. Operators monitor temperature closely to guide the condensation process. The result is a charge-transfer complex with steady batch reproducibility. Only direct control over these daily details manages quality to our standard, and this direct oversight keeps our product clean and consistent. Over decades, we’ve seen why that matters most for our customers: peace of mind with every drum they open.
Our common model for Aniline Phthalate offers a solid with distinct yellowish to pale-brown coloration. Over time, experience in production means fewer off-shades or purity surprises than products from traders. Laboratory samples run at melting points between 80 and 85°C, checked regularly as part of our outgoing quality tests. Moisture control and packing in moisture-proof bags prevent clumping and extension beyond the expected shelf life. Each container from our lines includes a batch stamp and can be traced to the morning’s production run, guaranteeing a direct line to its making.
The chemical formula presents as C14H11NO2. Over the years, subtle improvements—adjusting reaction times by just a few minutes or drying conditions by one degree—have sharpened batch-to-batch consistency. Tests on every output measure not just melting point, but UV-Vis absorption and residual solvents, ensuring each consignment delivers precisely the physical and chemical profile expected by repeat users.
We manufacture Aniline Phthalate not for laboratory shelves but for direct use in real production environments. In analytical chemistry, our compound helps detect and estimate trace mineral acids and nitrites. Many paper and textile labs depend on its color change properties for spot testing — a technique we learned to support by balancing purity and shade. In our facility’s pilot programs, engineers have run blends for specialty sensor substrates or dye intermediates.
Outside just lab testing, our clients share feedback from scale-up formulation. Coatings and pigment producers use our Aniline Phthalate for its strong sensitivity to acidity, setting QC standards. Technicians in specialty textile finishing have described using it as an indicator in amine curing reactions. Over many years, these industry partners consistently look for our product’s clarity, rapid dissolution in common organic solvents, and stability under normal plant conditions.
Producing Aniline Phthalate in volume needs more than basic synthesis. Over time, we found that not all aniline stocks work—certain trace impurities sneak through and appear later as haze or odor in the final mix. By refining splits and washes, our teams have managed to minimize these risks. The phthalic anhydride batch quality matters just as much; any substandard material introduces dark tints or stubborn byproducts. These details do not appear in scientific abstracts, but in practice, missing them can waste tons of product or lead to recall.
Water exclusion is another lesson from decades on the plant floor. Even one humid day in storage cuts shelf life in half, or cakes material for users downstream. Line staff seal and store every shipment with newer multi-layer barriers to maintain the powder’s flow and reactivity. The labs track each lot for weeks in simulated storage to confirm real-world stability—the level of oversight possible only from an actual manufacturer with control over every step.
We spend time studying differences between direct-manufacture Aniline Phthalate and batches from intermediary suppliers or resellers. In-house produced material scores highest in raw purity, with impurities typically below 1%. In contrast, third-party samples often show unpredictable minor byproducts or broad melting point ranges, owing to aggregation of sources and less control over raw input identity. Many traders lack immediate access to advanced spectroscopic screening—developers at our site update protocols continuously to catch new trace contaminants, visible only under advanced analysis.
Every shipping lot from our lines carries traceability down to operator and shift; this gives customers certainty in recall or regulatory reviews. Repacks or material sourced via intermediates introduce risk around moisture ingress and contaminant pickup. From our support experience, end-users who once depended on bulk-traded lots often return for our product’s sensory stability, consistent handling, and longer shelf life.
Batches coming from resellers sometimes mix material from multiple sources. This increases the chance of cross-contamination and leads to small—but critical—performance issues. For pH detecting or use as color reagent, these minor inconsistencies show up as sluggish response or hue differences in critical tests. Reports from our users confirm the stability and predictability of our product. Feedback from partners in textile finishing and analytical supply has driven our historical drive to master process repeatability — something that only direct manufacturers can ensure.
Direct oversight gives us room to address regulatory changes at their source, not long after the fact. Stringent adherence to environmental and operator safety rules keeps both our workplace and end-users secure. Over years, we have designed filtration and waste management systems tailored to phthalate and aniline processing. Trace emission controls matter to our neighbors and our business. Regular external audits helped us refine both product and plant. We welcome shifting safety regulations; our commitment to continuous improvement supports that approach.
Customer support teams receive up-to-date training on environmental compliance, labelling changes, and export regulations. On-site documentation includes all the checks required for both domestic and international shipping. These safeguards present a layer of confidence for clients in sensitive industries, where traceability and regulatory support matter almost more than price. This proactive regulatory stance springs not from obligation, but from lessons learned on the front line of chemical manufacturing.
Quality control never relies on a single set of tests. Each fresh lot undergoes melting point validation, purity checks by chromatography, and wet-chemistry spot analysis. The in-house QC lab also assesses solubility in key solvents: ethanol, acetone, and certain specialty glycol ethers, reflecting requests made by contract partners. Over the last decade, we’ve added FTIR and UV-Vis updates on standard tests—fine-tuning what customers ask for most.
Stability checks over extended storage cycles, including laboratory simulation of seasonal storage (cycles from 5°C to 35°C), guard against batch failure in transit. This focus on real storage and transport mirrors actual customer experience and reduces complaints. Our documentation for each lot covers not just basics like net weight or appearance but subtle factors like flowability after resealing, and residual odor—points end-users notice at first opening. These details spelled the difference in long-term customer loyalty, especially for specialty labs and research units.
Supplying Aniline Phthalate means direct participation in our clients’ R&D programs. Pharmaceutical firms testing new marker techniques, dye manufacturers trialing novel pigment dispersions, specialty ink formulators seeking sharper color reactions—all depend on the predictable performance of our batches. Our technical team engages directly with customer development labs, troubleshooting interface issues, or customizing packaging for scaled pilot plants. Research support includes detailed certificates of analysis with every shipment, drawing from internal batch data.
We have welcomed visiting teams from consortium labs and major industrial players, demonstrating line-by-line what sets our process apart. These collaborative relationships often reveal new technical challenges, with feedback influencing subsequent process tweaks. Adjusting reaction vessel parameters following customer test outcomes led to quantifiable improvement in performance metrics, visible in post-mortem studies shared between lab partners. In this way, sustained production ties directly to real-world discovery at our clients' hands.
Being a hands-on manufacturer means close collaboration with customers when they encounter issues. Common challenges—such as unexpected darkening in storage, sluggish color shift during laboratory application, or rare clumping after extended transit—receive swift response. Typically, such problems trace back to specific batches, packing methods, or abnormal humidity events. Our support teams keep detailed records and use this data to recommend real fixes, not just generic apologies.
A frequent customer concern arises when switching from competitor-sourced Aniline Phthalate: visual differences in tint or slower dissolution. Our technicians walk step-by-step through possible causes, examining lot certificates and shipping logs. Factory tour visits have offered customers insights to internal controls that shape end-use outcomes. By bringing customers into the loop, we foster trust and reduce repetition of errors—good for both sides.
Where persistent client-specific issues emerge, technical staff review full process logs. In practice, seemingly minor tweaks—a half-degree shift in drying oven setpoint, or a change in anti-static packing liner—may resolve major downstream headaches. Open lines of communication have meant that custom requirements, such as finer grade sizing or moisture-resistant inner lining, become new process standards for selected customers. Direct engagement, earned over years, supplies both technical improvements and genuine assurance for the long term.
Making the compound at large scale under one roof controls risk linked to mixed-source procurement. Customers in over twenty countries draw supply directly from our warehouse, with batch control and real shipment traceability. The site’s process scheduling system aligns with regular forecasts from long-standing partners. By managing our own logistics and maintaining familiar partners for customs and onward freight, we prevent the delays and loss of integrity that often plague more complex intermediated chains.
This emphasis on direct, consistent supply emphasizes product availability and reduces last-minute rushes or quality shortfalls. It also improves response capacity: urgent orders arising from customer process upsets, or unexpected seasonal swings, can be filled from reserved inventory. We take pride in these relationships, grown over repeated successful deliveries and open, honest communication about lead times.
We see steady demand for Aniline Phthalate not just as a commodity, but as a foundation for innovation. Customers frequently invite us to support new technical protocols or batch customizations. Emerging industries—including specialized polymer research and advanced analytical reagent design—need the sort of stability and responsiveness that our experience brings. Ongoing investments in facility upgrades, analytical instrument calibration, and staff training keep our knowledge base strong.
While the core manufacturing process has remained true to established best practices, we have improved every part of documentation, waste reduction, and process monitoring. Our teams regularly attend technical seminars and regulatory briefings, ensuring that shifts in compliance demands or new scientific discoveries inform our standard operating procedures. Partner input informs our investments: if several clients start using special blends or require alternate grades for pilot batches, we have the ability and will to adapt.
Running a chemical plant brings responsibility beyond batch output. We prioritize not just the health of our workers, but also that of local communities — emissions controls and careful chemical handling have minimized our footprint. Waste stream separation and advanced filtration keep phthalate byproducts and aniline residues out of air and groundwater. We have supported third-party audits and local governmental inspections, publicly displaying compliance results.
This commitment extends to partnerships with local educational institutes, providing technical apprenticeship opportunities and equipment support for chemistry programs. Classroom sessions and plant tours introduce tomorrow’s chemists to best practices in safe, reliable manufacture. Our support for community transparency – posting incident logs, inviting public review – keeps us accountable, and strengthens the bonds of trust essential for ongoing operation.
A drum of Aniline Phthalate from our facility is much more than a batch of powder. Each container reflects the work and oversight of a living team, recalling years of production improvement and technical dialogue with real users. Direct manufacturing grants a level of stability, traceability, and customer-specific adaptation that intermediaries struggle to match. From synthesis, through packing and shipping, to tailored customer support, each step adds visible value.
The daily focus remains simple: deliver a chemical that behaves the same, batch after batch, shipment after shipment. Supporting every container is a team of technicians, engineers, and regulatory staff who have weathered changing trends, customer needs, and global compliance shifts. We listen, we adapt, and we remain committed to helping customers use Aniline Phthalate as both a reliable tool and a foundation for discovery.