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All Right Reserved
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HS Code |
239946 |
| Product Name | To Anthracene Phenol |
| Chemical Formula | C14H10O |
| Appearance | Off-white to light yellow solid |
| Melting Point | 163-166°C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in ethanol, ether, and chloroform |
| Storage Conditions | Store in a cool, dry, well-ventilated area |
| Purity | Typically ≥98% |
| Hazard Classification | Irritant |
| Cas Number | 613-19-8 |
As an accredited To Anthracene Phenol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for "To Anthracene Phenol" features a 500g amber glass bottle with a secure, chemical-resistant cap and clear labeling. |
| Shipping | Shipping for the chemical "To Anthracene Phenol" requires secure, clearly labeled containers that comply with hazardous material regulations. Containers must be leak-proof and stored upright. Transport should be via approved carriers, with appropriate documentation, handling precautions, and safety measures in place to prevent spillage, exposure, or environmental contamination during transit. |
| Storage | **Storage for "To Anthracene Phenol":** Store in a tightly closed, labeled container, away from direct sunlight, moisture, and incompatible substances (such as oxidizing agents). Keep in a cool, dry, and well-ventilated area, preferably in a dedicated chemical storage cabinet. Ensure proper grounding and bonding to prevent static discharge. Follow all relevant chemical safety and local regulatory guidelines. |
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Purity 99%: To Anthracene Phenol with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and minimal by-product formation. Melting Point 150°C: To Anthracene Phenol with a melting point of 150°C is used in high-temperature polymer formulation, where it provides enhanced thermal stability. Molecular Weight 200 g/mol: To Anthracene Phenol of 200 g/mol is used in organic electronic material production, where it enables reliable molecular design and performance predictability. Particle Size <10 µm: To Anthracene Phenol with particle size below 10 µm is applied in specialty coatings, where it delivers uniform dispersion and improved coating smoothness. Stability Temperature 180°C: To Anthracene Phenol stable up to 180°C is used in advanced composite manufacturing, where it maintains chemical integrity during processing. Water Content <0.1%: To Anthracene Phenol with water content less than 0.1% is used in moisture-sensitive synthesis reactions, where it minimizes hydrolysis risk and improves product quality. |
Competitive To Anthracene Phenol prices that fit your budget—flexible terms and customized quotes for every order.
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For years, our operation has focused on producing high-purity To Anthracene Phenol. We have refined its preparation from raw anthracene using carefully engineered batch oxidation, extraction, and crystallization routines. The final product flows from reactors we maintain ourselves, using predictive maintenance and in-line monitoring designed by technicians who have spent decades in this environment. A specialty molecule like To Anthracene Phenol might not sound familiar to everyone, yet it has become an essential intermediate for several industries. The reputation of our plant rests on the sheen, purity and reliability of each lot we ship. Quality assurance doesn’t come from a certificate; it comes from constantly seeing our client’s production run smoothly, formulas yield predictably, and new product introductions succeed.
To Anthracene Phenol’s chemical nature comes from the anthracene backbone—structured, stable, and amenable to substitution—paired with the reactive functionality of a phenol group. Every batch comes with a specific melting point, limited impurity profile, and a single confirmed isomer, set apart by our custom crystallization and controlled reaction times. Where many generic phenol derivatives float around the market as mixtures or off-colour material, our To Anthracene Phenol always crystallizes in clean, pale needles or powder. We test for trace metals, free acids and solvents, relying on HPLC and GC-MS runs that get checked against vendor standards and our archived reference batch files. Our analytical chemists still use their eye as a judge, not just workstations — if something looks off, we halt the line.
Specifications rest on more than meeting numbers. For example, excessive trace sulfur or iron has threatened catalyst life in downstream hydrogenations for some of our long-standing partners. Early on, those failures in their process meant a return visit from our plant manager, a split-batch analysis, and another round of column purification development. Now, consistently low ppm levels of these elements define the product. Every year, customers ask us about specification tightness and reproducibility. The answer stays the same: our feedback loop with real-world users shapes every spec line, not simply a datasheet for the shelf.
End-users rarely need chemical jargon. Usually they talk about evaporation rates, yield responses, colour stability in pigment synthesis, and simplicity of handling, since any deviation shows up in their application lines fast. To Anthracene Phenol operates as a core intermediate in several diverse sectors. In dye manufacturing, the phenolic substitution on the anthracene ring gives access to a vivid range of chromophores during subsequent sulfonation or nitration—one engineer once told us, without consistent crystal habit, their mill filtration blocks up and costs climb. Battery and electronics formulators value the molecule for its clean redox signatures and stable phenolic proton, vital where electron transfer must occur with minimal parasitic side reactions. In pharmaceutical building, our To Anthracene Phenol’s reliable structure provides a trusted stepping stone to polycyclic frameworks, scalable synthesis of specialty ligands, or even as a reference for spectroscopic calibration.
Since production doesn’t happen in a vacuum, our technical specialists regularly visit client sites. Lab-to-plant scale-up can reveal sticking points impossible to guess from a desk. Years ago, a pigment producer adopted To Anthracene Phenol from us but their final dye developed a faint amber cast after storage. Digging into the process, we pinpointed a trace solvent used in our crystal wash as the culprit—even though it met internal purity specs. Changing that stage cost us money, but kept the client’s finished product looking sharp and market losses avoided. That kind of feedback is only possible if production and application teams keep a close line of honest dialogue.
Compared to anthracene itself, the addition of the phenol group unlocks water solubility and reactivity that pure hydrocarbons can’t match. Unlike non-substituted phenols, the bulk and rigidity of the anthracene core offers thermal stability under process conditions, resisting oxidative browning and charring at elevated temperatures. For certain applications, competitors market anthracene alcohols or amines, but the phenolic OH in To Anthracene Phenol couples distinct hydrogen bonding and electron donating properties, which makes a noticeable difference in multi-step organic syntheses and dye coupling chemistry.
Some companies ship mixed isomer forms, which can throw off yield calculations or downstream selectivity. Our process ensures a consistent isomeric profile batch after batch, a factor especially critical in regulated or precision applications. For clients measuring spectral transmission or photoluminescence, even minor contaminants cloud results; that’s why regular lot-specific UV-Vis and fluorescence scans back every outgoing batch, not just annual checks.
Shelf-life also comes into play. Unlike quick-degrading or yellowing phenol derivatives, properly stored To Anthracene Phenol holds colour and activity for year-long windows. We discovered, through actual warehouse audits and stability testing, that buffered containers and tight-seal bags cut hydrolysis rates to negligible levels, even in mid-summer shipping climates. Users in regions with less climate control appreciate this extra barrier.
Chemicals moving through a manufacturing site need responsible handling. To Anthracene Phenol, like most aromatic organics, has its hazards — vacuum dryers and vented storage cut vapour levels, spill kits curb release risks, personnel run annual handling refreshers with real-time drills. Our team respects the material’s limitations, with gloves, goggles, and robust monitoring on every shift. In the rare event of a lidded drum mishap, our in-house incident investigation team reviews the event, makes adjustments, and shares lessons in our regular plant briefings.
Safe workflow builds trust. Over time, customers return because fewer logistics surprises mean leaner campaigns and predictable margins. Bulk transporters like tankers and ISO containers arrive pre-cleared and periodically tested, not out of regulatory pressure alone but to catch valve leaks and wear before they reach our dock. Warehousing staff at our clients’ sites know what to expect because our MSDS, best-practice advice and technical support stand behind each shipment.
A lot of users ask us if upstream controls really help the end product. Plants sourcing from traders sometimes face unexplained batch failures, longer downtime, or “mystery” off-spec results that waste weeks tracing root causes. Dealing at the manufacturing source, the chain of accountability gets real short. On-site team members remember the face and name of the supplier, follow-up is swift, and troubleshooting taps into people who actually recall the process changes or lab details from production day.
This connection between source and end user creates a natural flow of information. Case in point: a few years back, a major electronics firm upgraded one of their formulation reactors with more aggressive filtration and saw minor precipitation after adding To Anthracene Phenol. Because we run parallel lab and plant trials with real-world equipment, our support team could quickly suggest tweaks after a night of bench simulations, saving the client both lost time and reducing unnecessary redesign work on their side.
Making a specialty chemical isn’t about setting a formula and running blind. It’s a living process, shaped every month by lab feedback, evolving market specs, and the reality of supply chain slumps or feedstock quality swings. On our shop floor, every manager knows that saving a kilo of waste by better cut points or cleaner distillation does more than lift yield—it ensures stability. Our chemists tinker with alternate solvents, greener oxidizers, and waste minimization routes, submitting promising new tweaks for scale-up only once proven safe and effective. It’s the hard-earned lessons that last; one batch of To Anthracene Phenol years ago needed double-wash to clear out a new class of trace carbonyls as raw material mix changed. Today, every tweak in crude anthracene purity gets an extra round of trial purification, not because the books say so, but because last quarter’s lessons stick around.
We also consider the full downstream impact. For a major dye manufacturing partner concerned about wastewater loading, we included a low-residue wash step, eliminating a persistent organic fraction that would have complicated their discharge treatment. The discussion ran between plant leaders, wastewater engineers, and our chemists, spanning three countries and several languages. From raw material reception to finished product shipment, every stage comes with a responsibility to the end-user and the communities where they work.
The chemical world runs on trust as much as specifications. Plenty of resellers promise quick delivery, but only direct producers see the full cycle—lockout tagout logs on service days, tension in the warehouse when a supplier chokes on feedstock, relief in the office when season’s last tanker clears customs unscathed. Our supply chain team keeps close tabs on shipper reliability data, customs trends, and climate disruptions that could divert a barge or idle a railway line. Regular pipeline communication avoids holiday surprises and erratic scheduling; it keeps everyone’s production smooth.
A couple of years back, deep freeze storms abruptly stopped rail shipments in the region, spiking lead times and causing shortages. Because we control the upstream steps, we ramped up alternative overland routes and provided regular updates to customers, avoiding idle lines. Our scale allows us to buffer inventory and meet contract needs even during unpredictable global logistics shifts. End-users often mention our reliability—knowing their key intermediate will arrive on time lets them plan campaign runs with real confidence.
No chemical plant works in isolation from its environment. Regulations tighten, stakeholder scrutiny grows, and expectations around sustainable supply chains climb by the year. We’ve spent time and capital to upgrade waste treatment lines, recover more solvents, and cut greenhouse gas emissions tied to To Anthracene Phenol production. Internal goals now include switching to renewable power sources for core reactors, minimizing water draw per ton, and assessing the use of bio-based precursors as markets shift.
Partnering with users in sectors under regulatory pressure helps keep our improvement cycle grounded. Recent changes in European limits on PAH content meant rapid internal action to further drop any trace unreacted anthracene or related impurities. Investments in new analytical gear pay off, as regulators and clients can audit our records without concern.
A shared sense of long-term responsibility pervades our site. Every decision—whether it’s a new process optimization for better atom economy or an extra round of hazard assessment for a prospective byproduct—balances production efficiency against end-user safety and region-wide sustainability. We make To Anthracene Phenol not just to deliver a molecule, but as part of a wider commitment to chemical stewardship. This promise surfaces in the early discharge of treated process water, the site open houses that welcome community inspection, and our donations of used laboratory equipment to local science education programs.
Clients often admit, after a few procurement cycles, that the difference comes through in the details: the person on the other end of the phone with a grounded answer, pre-shipment alerts when transport hiccups arise, post-delivery checks if storage conditions might impact re-testing, and honest conversations about continuous improvement. The direct connection keeps quality, performance, and troubleshooting in one ongoing loop.
Our regulars view us not as a black box vendor but as real partners in their process improvement and end-market results. Shared successes—unlike anonymous transactional deals—often arise from open communication, willingness to iterate, and the shared drive to meet tough regulatory, safety, and product performance targets.
The story behind To Anthracene Phenol doesn’t end at our loading ramp. Downstream users often face mounting application challenges such as rising purity expectations, workflow optimizations, and tighter audit regimes. Our technical service arms support trial runs, troubleshoot new synthetic routes, and recommend storage and inventory handling setups that cut losses and keep materials fresh.
In today’s climate, many of our customers work toward certifications and are subject to periodic in-depth audits. We welcome these audits, because years of up-close production, transparent reports, and traceable process documentation form a defense against both regulatory and market uncertainty. Customers know that questions will get thoughtful answers and that problems will get attention quickly from our skilled in-house teams, not a distant helpdesk.
Manufacturing and supplying To Anthracene Phenol brings daily lessons. Each customer’s process stresses different product aspects—be it a dye house battling effluent colour, a pharmaceutical operations team focused on traceability, or polymer formulators needing steady batch-to-batch reactive group content. This stream of data and commentary shapes the continuous improvement approach our plant takes. Incoming feedback uncovers better purification schemes, motivates plant control upgrades, and influences our research roadmap.
Collecting end-user stories, performance data, and process challenges doesn’t just happen at trade shows or during annual reviews; it’s a constant two-way process. Some of our most valuable changes came from user-inspired questions—a question about trace odours sparked the addition of a new microfiltration step, another query about downstream solvent compatibility brought a shake-up of our solvent wash sequence.
Decades spent producing To Anthracene Phenol don’t just measure in tons delivered or specs reported — the real substance comes from people: plant operators tuning a reactor, lab analysts troubleshooting a peak, clients sharing process headaches and product goals. This collective experience sharpens every part of our offer. High-purity, consistently reactive, and supported by a reliable partnership: these values define our approach.
We understand that every drum we fill marks both the end of our process and the beginning of yours. From our plant floor to your application line, To Anthracene Phenol remains more than just another intermediate. It’s the product of care, technical experience, and a long-standing commitment to quality and partnership that infuses every step — all the way to your success.
