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HS Code |
361483 |
| Product Name | 6-Amino-M-Ethylphenol Hydrochloride |
| Cas Number | 6258-06-6 |
| Molecular Formula | C8H12ClNO |
| Molecular Weight | 173.64 g/mol |
| Appearance | White to off-white crystalline powder |
| Solubility | Soluble in water |
| Melting Point | 168-172°C |
| Purity | Typically ≥98% |
| Storage Conditions | Store at room temperature, protected from light and moisture |
As an accredited 6-Amino-M-Ethylphenol Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | White plastic bottle containing 100 grams of 6-Amino-M-Ethylphenol Hydrochloride, clearly labeled with safety instructions and lot number. |
| Shipping | Shipping for 6-Amino-m-ethylphenol hydrochloride is conducted in compliance with chemical safety regulations. The compound is securely packaged in sealed containers, clearly labeled, and cushioned to prevent damage. Transport is arranged via certified carriers, often with climate control as needed, and accompanied by proper documentation, including Material Safety Data Sheets (MSDS). |
| Storage | 6-Amino-m-ethylphenol hydrochloride should be stored in a tightly sealed container, away from moisture and incompatible substances. Store it in a cool, dry, and well-ventilated area, preferably at room temperature. Protect from direct sunlight, sources of ignition, and excessive heat. Ensure that storage areas are clearly labeled and compliant with appropriate safety regulations for hazardous chemicals. |
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Purity 99%: 6-Amino-M-Ethylphenol Hydrochloride with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high-yield and low impurity formation. Melting point 234°C: 6-Amino-M-Ethylphenol Hydrochloride with a melting point of 234°C is used in controlled crystallization processes, where it provides enhanced thermal stability during manufacturing. Molecular weight 173.63 g/mol: 6-Amino-M-Ethylphenol Hydrochloride with molecular weight 173.63 g/mol is used in fine chemical production, where it enables accurate stoichiometric calculations for reaction scaling. Particle size < 50 μm: 6-Amino-M-Ethylphenol Hydrochloride with particle size less than 50 μm is used in tablet formulation, where it improves powder homogeneity and dissolution rates. Solubility in water 150 mg/mL: 6-Amino-M-Ethylphenol Hydrochloride with solubility in water of 150 mg/mL is used in aqueous solution preparations, where it allows for high-concentration formulations. Shelf stability 24 months: 6-Amino-M-Ethylphenol Hydrochloride with shelf stability of 24 months is used in long-term storage of raw materials, where it maintains consistent chemical integrity over time. |
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In the world of specialty chemicals, 6-Amino-M-Ethylphenol Hydrochloride stands out for those seeking solid reliability in research and production. This compound, often abbreviated for simplicity, doesn't just sit on a shelf gathering dust; it answers real needs in pharmaceuticals, advanced organic synthesis, and development labs that are always racing to stay ahead. The version with a hydrochloride group brings a practical edge, offering better stability and handling compared to its base form.
People who spend time in the lab get used to picking products that offer an edge against common problems—unwanted side reactions, poor solubility, messy storage. Here, the hydrochloride form makes a big difference. Moisture from the air doesn’t degrade it nearly as fast. This means it arrives as expected and keeps its potency longer, saving headaches that nobody has time for, especially with tight project deadlines or high standards from customers.
Going deeper than its chemical structure, the amino and ethyl groups in 6-Amino-M-Ethylphenol Hydrochloride allow for versatile reactivity. Whether you’re working with coupling reactions, intermediates for dyes or pharma building blocks, or you need targeted action in antioxidant screens, the molecule shows up ready for business. Other similar chemicals might claim broad use, but they don’t always offer the same flexibility without dragging through extra purification steps or encountering stability hiccups.
From regular use, lab techs learn to trust chemicals that come with consistent batch-to-batch performance. The best classes of 6-Amino-M-Ethylphenol Hydrochloride get manufactured under strict process controls, reducing headaches like inconsistent melting point or off-specification appearance. The hydrochloride salt specifically avoids the drifting pH seen in free base analogs and cuts the risks of variable outcomes. Whether folks are running QC on routine assays or building up novel compounds from a new synthetic route, the little details matter.
A colleague once shared how their team’s project lagged for weeks when a different phenol derivative suffered storage issues. Switching to this compound in hydrochloride form cut the nearly daily headaches of recrystallizing, re-testing, and adjusting protocols. I’ve seen firsthand how reliable materials can save both money and reputation. It’s not just what’s inside the drum, but how it holds up after delivery that decides whether you recommend it to a friend across the industry.
Digging into specifics, high-purity grades are a must for all sensitive applications. Analytical data such as melting point, solubility, and impurity profiles help inform day-to-day decisions in the lab. A typical pharmaceutical-focused grade keeps impurities well below 0.5%. Water content matters; too much, and you risk skewing results and messing up weight-based formulation. The hydrochloride’s improved moisture resistance pays off, since you spend less time correcting for active content.
Real strength lies in how the molecule dissolves in water and organic solvents alike. This makes life easier for chemists running multi-step reactions and those looking to reformulate finished goods. Many researchers working with related amino phenols struggle when solubility or color interferes with downstream analysis. Here, the hydrochloride’s cleaner profile helps avoid false negatives or positives in assays, letting real data guide decisions.
Chemists can rattle off a dozen variants of amino phenols, each promising slightly different perks. Some hold a different group on the ring, some show up as free bases, others as tosylates or nitrates. The real test comes under pressure, when a time crunch or unexpected project pivot demands quick adaptation.
Working with the free base form often feels like babysitting. It absorbs water, clumps, sometimes changes color, and can require extra work just to keep it in line. Comparable salts—nitrates, for example—may boost solubility but sometimes introduce unwanted side reactions, especially in delicate pharmaceutical syntheses. 6-Amino-M-Ethylphenol Hydrochloride, by contrast, has proven over the years to stay stable in the bottle, dissolve when asked, and avoid surprising the team with erratic results.
The unique balance of electron-donating and -withdrawing groups in this molecule makes it attractive for more than just pharmaceuticals. Dye manufacturers who want sharp, stable colors look for a compound that resists oxidation and fading. Labs racing to invent new antioxidants for polymers, or to test UV-absorbing coatings, also find the hydrochloride form appeals because it doesn’t complicate baseline readings. Compared to more exotic analogues, you won’t find supply bottlenecks or pricing spikes, and established documentation eases new product qualification.
Many solid drug candidates trace their origins to intermediate steps involving selective phenol derivatives. This compound shows up in synthesis plans for several promising APIs. Its hydrochloride form yields a more controlled reaction, especially for those processes sensitive to pH or involving challenging solvents. This helps manufacturers scale up faster from bench-top to pilot plant.
Pharmaceutical chemists use 6-Amino-M-Ethylphenol Hydrochloride not only for its reactivity, but also because the hydrochloride group tends to minimize contamination. Impurities from atmospheric CO2 or moisture are less likely to mess up a reaction. In turn, projects avoid disappointing yields or product failures, which always frustrate the team and delay critical clinical timelines.
Many developmental drugs rely on amine groups with specific steric or electronic features. The ethyl group on the phenol ring tunes both the reactivity and downstream pharmacology, letting research teams tweak potency and solubility without starting from scratch each time. Since the hydrochloride keeps the compound as a powder rather than a sticky oil, handling steps like weighing, mixing, and transferring go smoothly with basic lab tools.
Organic chemists rely on dependable intermediates to build complex molecules. 6-Amino-M-Ethylphenol Hydrochloride offers a practical starting point or step in processes ranging from cross-coupling reactions to selective alkylation. The hydrochloride group keeps everything tidier than non-salt alternatives.
Experience teaches that the wrong intermediate means more than just double-checking your stoichiometry. Bad purity can strip hours from your week, introduce byproducts that require expensive chromatographic cleanups, or force last-minute method changes. Here, the track record of this hydrochloride salt means routines actually stay routine, and unexpected “fire drills” become less common.
In aromatic substitution reactions, both the amino and ethyl groups guide reactivity at predictable positions. This can open up synthetic access to new ligands, modified dyes, and advanced material coatings. The more predictable the chemistry, the fewer surprises hit your process development schedule, reducing wasted resources and keeping teams focused on forward momentum.
Textile and pigment manufacturers aiming for strong and durable coloration rely on building blocks that deliver. This compound’s balance of electron-donating and electron-withdrawing features results in color fastness and intensity—two things real-world applications judge quickly. The hydrochloride helps keep product quality high through storage and shipping, cutting down on returns and batch blames so often heard during production audits.
Users at scale know the frustration of color fades or inconsistent batches. Power users appreciate the extra shelf life and easier blending in powder form. Formulators pushing for brighter, longer-lasting dyes turn to this hydrochloride over base forms or less stable alternatives. In conversations with industry peers, the need for consistent performance repeats itself. A product that delivers the same hue one year as it did last is no small feat, especially for buyers dealing with seasonal and global supply swings.
In plastics and resins manufacturing, stabilizing agents keep materials tough and extend shelf life. Aromatic amines, in particular, attract attention for their strong radical-scavenging behavior. It’s not just about blocking oxidation, but doing so without leaching, discoloring, or altering processing conditions.
6-Amino-M-Ethylphenol Hydrochloride enters the mix as a potent antioxidant building block. Its stability, both chemically and physically, cuts down on processing headaches. Teams avoid batch-to-batch performance shifts and can maintain material standards that meet customer and regulatory needs. The hydrochloride’s easy measurement in fine powder form avoids issues like static-clinging or dusty messes found with lighter amines. Colleagues in polymer tech point out that reproducibility means trusted product lines, not just random good runs.
For emerging applications like specialty films or UV blockers, subtle changes in chemical base can spell the difference between long-term performance and unexpected returns. The durability carries over from simple coatings to high-performance engineering plastics. Supply partners like working with something that rarely prompts surprise recall meetings.
Anyone working with specialty chemicals learns quickly to respect safety procedures. Experience in busy labs taught me the importance of clear labeling, dry storage, and meticulous note-keeping. 6-Amino-M-Ethylphenol Hydrochloride, although more stable than some alternatives, still asks for gloves, dust control, and well-ventilated workspaces. The hydrochloride form cuts down on airborne dust compared to some highly volatile or oily analogs, but routine care should guide all handling steps.
Health and safety professionals remind us often that each batch brings its own quirks. Having a consistent source and documented safety profile means fewer late-night accident reports and easier compliance audits. With wider adoption, user feedback and periodic review of the literature ensure up-to-date practices. This kind of responsible approach keeps both labs and industries in the good graces of regulators and insurance teams alike.
Sustainability reaches into how intermediates like 6-Amino-M-Ethylphenol Hydrochloride get produced, packaged, shipped, and disposed of. Environmental teams at top companies focus not just on what happens inside the plant, but on the whole lifecycle—from feedstocks to finished products. The hydrochloride form, with its more predictable stability and lower degradation risk, often leads to less waste.
Not all specialty chemicals share the same environmental record. Some may break down into troublesome byproducts or require extra resources to neutralize before disposal. This hydrochloride salt, compared to some more exotic counterparts, poses fewer surprises during wastewater treatment and requires less corrective action. Teams aiming for ISO or similar certifications look closely at the data when choosing their core ingredients.
Sourcing from trusted partners with strong compliance records moves the needle further. Large buyers increasingly ask for documentation on environmental impact and safe disposal. As the market shifts toward greener chemistry, products that reduce the need for excess stabilization, preservatives, or corrective inventory place businesses ahead of new regulations and customer expectations.
Any chemist or supply manager who’s lived through raw material shortages understands the value of a compound with stable, reliable sourcing. The hydrochloride variant of 6-Amino-M-Ethylphenol enjoys broad-based production, which creates fewer hiccups in the supply chain.
People used to “end-of-life” notices or allocation-driven delays take comfort in compounds with established track records and redundancy in production. The hydrochloride’s popularity means it is less likely to vanish or to spike in price overnight. Customers managing lean inventories or on-time delivery schedules rest easier knowing that major labs and distributors keep it in ready stock.
Working directly with suppliers over the years has shown that quick access to high-quality intermediates shortens timelines, strengthens trust, and enables rapid response to customer demands. In a landscape where supply interruptions can kill projects, picking robust and widely produced materials like this hydrochloride keeps risk manageable.
Quality control professionals—whether in pharma, polymers, or dyes—insist that consistency isn’t just about matching certificates; it’s about process, partnership, and trust. 6-Amino-M-Ethylphenol Hydrochloride maintains its reliable profile with the backing of strong process documentation and tested analytical methods.
Batch records, retention samples, and regular audits all contribute to this reputation. Labs that test every incoming drum don’t want surprises; anomalies hold up schedules, delay product launches, and eat up more budget than most realize. This compound’s performance in QC labs illustrates the practical benefits of working with proven partners and time-tested manufacturing approaches.
The best solutions don’t always require the most advanced or novel ingredients—they demand reliability matched to each task. With 6-Amino-M-Ethylphenol Hydrochloride, the real-world lesson has shown that predictable, stable, and easy-to-handle materials free up resources for those truly challenging problems.
Regular technical updates, open dialog between suppliers and users, and a willingness to share feedback keep products up to standard. Involving dedicated staff in method development, onboarding new raw materials with small test batches, and maintaining strong documentation allow teams to adapt quickly—without taking on unnecessary risks.
Colleagues tell stories of projects that took off because product quality kept pace. Instead of fighting the chemistry, teams leaned into building better molecules or building out new applications. This compound’s run in the industry reflects not just chemical attributes but long-term trust built over steady performance.
The pace of scientific progress never slows. Teams in pharma, materials science, and chemistry face both new demands and shifting regulatory targets each year. Having partners like 6-Amino-M-Ethylphenol Hydrochloride in the toolbox eliminates distractions and lets researchers chase bold innovation.
Future applications in electronics, advanced materials, or next-generation therapies may yet find unique value in this well-known molecule. Those who work at the intersection of research and real-world use know that consistent, high-value inputs strengthen every outcome. Reliable partners in the chemical world allow both new hires and industry veterans to set their sights high—and build the next wave of products that make a difference out in the real world.