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Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride

    • Product Name Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride
    • Alias Nhydroxyethyl-p-phenylenediamine sulfate
    • Einecs 629-733-7
    • Mininmum Order 1 g
    • Factory Site Tengfei Creation Center,55 Jiangjun Avenue, Jiangning District,Nanjing
    • Price Inquiry admin@sinochem-nanjing.com
    • Manufacturer Sinochem Nanjing Corporation
    • CONTACT NOW
    Specifications

    HS Code

    650218

    Productname Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride
    Casnumber 120273-93-2
    Molecularformula C9H12ClNO3
    Molecularweight 217.65 g/mol
    Appearance White to off-white crystalline powder
    Solubility Soluble in water and alcohol
    Meltingpoint 180-185 °C
    Purity Typically ≥98%
    Storagetemperature 2-8 °C
    Synonyms 2-(2-Hydroxyethylamino)-1,3-benzodioxole hydrochloride
    Usage Intermediate for hair dye manufacturing
    Phvalue Approximately 3.0-5.0 (1% solution)
    Stability Stable under recommended storage conditions
    Odor Odorless
    Safety May cause irritation to eyes and skin

    As an accredited Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing White HDPE bottle with tamper-evident seal, labeled with product name, 10g quantity, batch number and safety information, securely packaged.
    Shipping Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride should be shipped in tightly sealed containers, clearly labeled, and protected against moisture and light. Transportation must comply with relevant chemical regulations. Handle as a hazardous material, using appropriate packing materials to prevent breakage and leakage during transit. Include safety documentation such as MSDS with the shipment.
    Storage Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride should be stored in a tightly sealed container, protected from light and moisture, in a cool, dry, and well-ventilated area. Keep away from incompatible substances such as strong oxidizers and acids. Store at room temperature and avoid excessive heat. Proper labeling and secure handling procedures are recommended to ensure safety and prevent contamination.
    Application of Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride

    Purity 98%: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with a purity of 98% is used in specialty dye formulation, where high chromatic intensity and batch-to-batch color consistency are achieved.

    Melting point 183°C: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with a melting point of 183°C is used in thermal inkjet ink production, where improved thermal stability and print sharpness are ensured.

    Molecular weight 229.66 g/mol: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with a molecular weight of 229.66 g/mol is used in pharmaceutical intermediate synthesis, where precise reaction control and optimized yield are realized.

    Particle size <10 µm: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with a particle size less than 10 µm is used in electrophoretic coating applications, where uniform film formation and smooth surface finish are produced.

    Stability temperature 120°C: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with stability up to 120°C is used in industrial polymer modification, where enhanced thermal resistance and prolonged material lifespan are provided.

    Aqueous solubility 50 mg/mL: Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with aqueous solubility of 50 mg/mL is used in waterborne conductive polymer synthesis, where improved dispersion and electrical conductivity are obtained.

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    Certification & Compliance
    More Introduction

    The Value of Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride in Modern Applications

    Introducing a Transformative Compound

    Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride, sometimes a mouthful to say, shows up in workspaces from research labs to industrial production lines. For years, I’ve noticed how chemical suppliers highlight breakthroughs involving this compound, often comparing it to predecessors or related derivatives that got the job done, but lacked a certain level of reliability. This molecule, with its hydroxyethyl side chain and distinct aromatic structure, stands out for its balance between reactivity and stability. It’s not some obscure additive; scientists and product developers gravitate to it for very specific reasons.

    Specifications that Matter Beyond the Lab

    I’ve seen lots of materials come through my hands—crystals, liquids, powders with different particle sizes, purities, or moisture contents. Specs only tell half the story, especially if you’re not someone who spends time under the hood of chemical reactions. In practice, Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride usually arrives as a white to off-white solid, sometimes a crystalline powder, and people care most about its purity—often upwards of 98% or higher by HPLC or GC. Rather than fixate on how many decimal places you can chase with melting points, it’s more interesting to look at how real users value this compound’s sharp performance and cleanliness of reaction profiles.

    Stable storage is critical for any intermediate or building block, and Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride holds up under reasonable room temperatures, avoiding rapid oxidation or hygroscopic behavior that causes problems in a warehouse. This reliable shelf life cuts down on wastage, a point I’ve heard repeated by purchasing teams who hate finding caked-up chemical drums. With proper sealing, the material doesn’t clump easily. You can get it in multiple grades, but people typically go for the high-purity version to reduce downstream purification steps.

    Applications in Synthesis and Product Development

    A lot of folks only see chemicals like this as line items on a purchase order. But for anyone synthesizing complex molecules, Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride is more than a stamp in a logbook. In dye chemistry, it offers a platform for creating vivid, stable colors that end up in textiles, printing inks, and specialty coatings. Its structure allows for nuanced substitutions, opening up possibilities in pigments that stay bright after repeated washing. I’ve spoken to formulators who swear by the consistency they get batch after batch, which can be a lifesaver in large-scale fabric printing.

    Pharmaceutical research leans on this compound as a building block for more advanced molecules. Medicinal chemists appreciate its well-behaved reactivity with acyl groups and other functional partners. Some leading-edge bioactive molecules have structures derived from this very intermediate. For example, chemists engineering catecholamine-based drugs find the methylenedioxy motif especially handy, letting them keep metabolic stability without sacrificing activity. There are biodegradable polymers and specialty resins featuring this aniline derivative; its characteristics affect everything from flexibility to moisture tolerance in high-value materials.

    In my experience, what sets Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride apart is this comfortable blend of reactivity and predictability. Some related aromatic amines kick off unwanted side reactions or introduce impurities that gum up reactors. This compound responds better to fine-tuning—change a solvent or catalyst and you still get a manageable byproduct profile. If a process engineer wants fewer surprises, it pays off to specify this ingredient in the pathway.

    What Sets It Apart From Other Compounds

    Many aniline-based derivatives promise flashy results but let you down, especially under industrial stress. I remember a run with standard methylenedioxyaniline where the final product purity drifted depending on batch size. Switching over to Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride, I noticed cleaner end products and less hassle with side-product isolation. With fewer chromatographic headaches and less solvent wasted on rework, the appeal grows obvious.

    The hydroxyethyl group isn’t just an academic afterthought. It creates more soluble intermediates during reactions, making workups smoother—none of the stubborn precipitation that forces operators to intervene. Contrast this with plain 3,4-methylenedioxyaniline (without the extra substituent): solvents have to do more of the heavy lifting, and the risk of incomplete conversion rises.

    Hydrochloride as a counterion does more than improve handling. Salts based on the free base often deal poorly with ambient moisture or ship badly. The hydrochloride version holds up better in storage and offers more predictable dosing by mass. Many buyers appreciate this if their process depends on precise stoichiometry—no guessing at content, no fiddling with water removal steps.

    Health, Safety, and Regulatory Contexts

    Safety isn’t just a buzzword. I’ve witnessed too many labs treat new chemical entities as harmless, then scramble when an unexpected incident crops up. Based on current literature, Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride rates as a compound to handle with reasonable PPE—nitrile gloves, safety glasses, and adequate ventilation. Like most aromatic amines, it doesn’t belong anywhere near your nose or bare hands. I always advise teams to check the latest safety statements, but in controlled use, the risk feels manageable next to more reactive or volatile intermediates.

    Discussion of environmental factors makes sense here. Some precursors from older dye chemistries pollute water streams or linger in waste. The tailored structure of Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride offers opportunities for more selective downstream conversions, which helps minimize superfluous byproducts winding up in effluent. Responsible users factor in disposal procedures and aim for closed-loop processing, not just to comply with local rules but to lower long-term impact.

    Regulatory frameworks continue evolving, so keeping up with inventories like REACH in the EU and US TSCA listings is non-negotiable. From my network of industry contacts, I’ve learned that suppliers providing transparent, up-to-date documentation score more repeat business than those who cut corners. No one wants to land in hot water with compliance officers or get stuck with borderline imports. Knowing the exact content and provenance of your Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride pays off whether you’re filing an IMPD for a pharma project or tracking raw material origin for downstream applications.

    Challenges and Room for Improvement

    Bringing a compound from lab scale to tonnage runs reveals plenty of stumbling blocks—logistics, cost, consistency, all roll into one. Sourcing Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride hasn’t always gone smoothly for smaller labs, largely due to fluctuating demand or regional supply gaps. Some startups in specialty chemicals have told me about lags in lead time, forcing substitutions or redesigned syntheses.

    Quality assurance poses another challenge. Although most producers advertise high purity, buyers sometimes uncover micro-scale contaminants if the route isn’t tightly controlled. I recommend frequent batch testing, using both vendor QC reports and your in-house analysis. Consistency between batches can be the difference between a successful product launch and a costly delay. Setting up a routine for double-checking certificate of analysis details beats finding out too late.

    On the supply chain side, shocks like port delays or raw material shortages hit smaller customers hard. Pooling resources through consortia or forming partnerships with reliable distributors helps blunt the effect of these swings. Long-term purchase agreements aren’t glamorous but bring peace of mind when projects depend on continuous supply.

    The Future of Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride

    Trends in the chemical industry favor building blocks that offer not just performance, but also reduced environmental impact and regulatory risk. Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride stands out by virtue of its adaptability—able to slot into advanced syntheses and bulk formulations without a steep learning curve. I see more R&D teams experimenting with greener synthesis routes using this compound, exploring biocatalytic processes or recycling systems to reduce solvent waste.

    As global standards for chemical traceability and quality assurance tighten, more end-users will look for transparent supply chains. Each time I join a roundtable in the formulation community, I hear about positive experiences working with reputable suppliers who share batch-level analytics and origin data. If enough companies push for these practices, the market for Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride—sourced and tracked responsibly—should keep growing, driven by everyone from textile engineers to pharmaceutical chemists.

    Supporting Innovation Through Reliable Materials

    Chemistry, at its core, depends on trust—trust between the scientist and the material. In all the projects I’ve helped oversee, the right choice of intermediates either speeds up innovation or blocks progress. Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride, thanks to its thoughtful balance of physical and chemical properties, helps teams turn ideas into reality. Whether the goal is a new pigment, a drug candidate, or a specialty monomer, this compound rarely lets you down when compared to less specifically engineered alternatives.

    I encourage teams to approach sourcing and application with a mindset rooted in both performance and stewardship. Don’t settle for generic anilines if your process or product demands something more robust. Investing the time to qualify Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride with your needs in mind pays off in efficiency, safety, and compliance.

    Making the Right Choice for Advanced Applications

    Anyone who’s worked with specialty chemicals knows how quickly a project can get tripped up by unexpected impurities, supply chain issues, or regulatory surprises. The decision to choose Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride over less refined options often reflects lessons learned the hard way. I’ve seen project schedules saved by reliable sourcing and consistent material quality—and I’ve witnessed setbacks when teams ignored these basics.

    The versatility of this compound translates to real-world benefits: faster scale-up, less environmental worry, and products that meet rising quality bars. In my view, products like Hydroxyethyl-3,4-Methylenedioxyaniline Hydrochloride, supported by robust quality systems and transparent supply, are helping set new norms for what’s possible in chemical manufacturing. That’s a direction anyone invested in sustainable progress can get behind.