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HS Code |
884953 |
| Chemical Name | Hydroxyethyl Piperidinol |
| Molecular Formula | C7H15NO2 |
| Molecular Weight | 145.2 g/mol |
| Cas Number | 13349-82-1 |
| Appearance | Colorless to pale yellow liquid |
| Boiling Point | 267°C |
| Density | 1.045 g/cm3 |
| Solubility In Water | Miscible |
| Flash Point | 145°C |
| Structure | Piperidine ring substituted with hydroxyethyl group |
| Ph | Typically around 10 (for 10% solution) |
| Stability | Stable under normal temperatures and pressures |
| Storage Temperature | Store at room temperature |
| Refractive Index | 1.475 |
As an accredited Hydroxyethyl Piperidinol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g Hydroxyethyl Piperidinol is supplied in a sealed, amber glass bottle with a screw cap, labeled for chemical laboratory use. |
| Shipping | Hydroxyethyl Piperidinol is shipped in tightly sealed containers to prevent moisture absorption and contamination. It should be stored in a cool, dry, and well-ventilated area, away from incompatible substances. Handle with appropriate safety equipment and follow regulations for chemical transport, including proper labeling and documentation to ensure safe and compliant delivery. |
| Storage | Hydroxyethyl Piperidinol should be stored in a tightly closed container in a cool, dry, and well-ventilated area. Keep away from incompatible substances such as strong oxidizers. Protect from moisture, heat, and direct sunlight. Ensure proper labeling and secure storage to avoid accidental release. Observe all local, regional, and national regulations concerning chemical storage and handling. |
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Purity 99%: Hydroxyethyl Piperidinol with a purity of 99% is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Viscosity grade 150 mPa·s: Hydroxyethyl Piperidinol of viscosity grade 150 mPa·s is used in specialty coatings formulations, where it provides improved film uniformity and smooth application. Molecular weight 146.21 g/mol: Hydroxyethyl Piperidinol with molecular weight of 146.21 g/mol is used in organic synthesis protocols, where it affords predictable reactivity and process control. Melting point 68°C: Hydroxyethyl Piperidinol with a melting point of 68°C is used in controlled-release formulations, where it enables precise thermal processing and stable encapsulation. Stability temperature up to 120°C: Hydroxyethyl Piperidinol stable up to 120°C is used in high-temperature resin manufacturing, where it maintains structural integrity and process reliability. Water solubility 25 g/L: Hydroxyethyl Piperidinol with water solubility of 25 g/L is used in aqueous formulations for surface treatments, where it promotes rapid dissolution and homogeneous application. Particle size <50 µm: Hydroxyethyl Piperidinol with particle size under 50 µm is used in powder blending for catalyst supports, where it delivers uniform dispersion and enhanced catalytic efficiency. |
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Hydroxyethyl Piperidinol has become a familiar name for those of us who spend years around stainless steel reactors and analytical balances. Every batch tells a story of the role this chemical plays in real-world production, far beyond any catalog description. Our plant has been manufacturing Hydroxyethyl Piperidinol for years, supplying it to pharmaceutical, coatings, and specialty materials companies that understand the language of chemical building blocks.
The backbone of Hydroxyethyl Piperidinol lies in its piperidine ring, joined to a hydroxyethyl group. This blend of amine and alcohol functionality lets it interact with other chemicals in ways simple amines or alcohols cannot. Many labs try working with alternatives, but they quickly discover that the balance between hydrophilicity and reactivity in Hydroxyethyl Piperidinol brings unique value during synthesis. You don’t just see it in the research phase: large-scale users speak to its clean reaction profile, and our own feedback comes from process leaders who want minimal byproducts and consistent conversion rates during scale-up.
Production runs are more than just filling drums—they are about hitting reproducible marks batch after batch. Our standard model of Hydroxyethyl Piperidinol leaves the reactor as a colorless to pale yellow liquid. Maintaining above 99% purity has long been our goal, and each lot undergoes tests for water content, byproducts, and residual amines. Those parameters aren’t picked out of a generic spec sheet—they come from years of hearing what chemists and engineers actually need for downstream synthesis to run smooth. Sometimes, customers ask for a variant with tailored moisture content, or a fraction distilled for ultimate purity. We listen, work with process control in-house, and give a lot more than a number on a certificate of analysis.
The chemical industry loves grouping molecules by functional group, but the truth is, each one carries its own character. Hydroxyethyl Piperidinol sets itself apart from other substituted piperidines or hydroxyalkylamines. Ethanolamine doesn’t have the steric stability for multi-step synthesis, and plain piperidinol cannot offer the reactivity that our compound provides in ring-opening or coupling reactions. During years of customer trials, few alternatives substitute for Hydroxyethyl Piperidinol without sacrificing either selectivity or final product yields. That feedback comes straight from scale-up engineers who track solvent use, purification costs, and throughput numbers. They choose this product when consistency and batch traceability make the difference between a process that works on paper and one that earns production slots week in and week out.
Walk through our facility and you will find operators accustomed to the nuances of handling this material. Certain amines cause more corrosion, and alcohols can bring volatility headaches — but Hydroxyethyl Piperidinol, with its boiling range and handling profile, proves easier for sealed-system transfers and storage. Staff training focuses on safe use, spill prevention, and fine-tuning process conditions to prevent discoloration and degradation, particularly during hot summer months when even small temperature shifts change everything. Rarely does a generic alternative offer the same shelf stability, especially for end-users in regions with broad ambient temperature swings.
We never just sell, we ask customers to share their process stories. Some use Hydroxyethyl Piperidinol as a core intermediate in synthesizing APIs where tight process validation leaves no room for unknowns. In resin research, development chemists noticed the hydroxyethyl group brings flexibility to cured polymers, driving changes in mechanical strength and resistance to humidity. In these applications, replacements failed to hit desired product specifications. That kind of feedback doesn’t come from sales teams—it builds over years, through reports of yields, impurity profiles, and production bottlenecks.
For those working in high-value pharmaceuticals, regulatory demands require that every input is traceable. We provide lot-based documentation and full traceability, developed not in response to some abstract industry requirement, but because people on the manufacturing floor demanded outcomes that supported audits and long-term process stability. Sometimes, users discover improved solubility for intermediates, or see downstream benefits during halogenation or hydrogenation. Many share how Hydroxyethyl Piperidinol’s combined secondary amine and alcohol functionality enables new coupling strategies, especially for challenging substrates.
No production run ever goes perfectly. Over the years, plant staff noticed that temperature control during charge-in and distillation heavily changes product color and odor. Early batches showed more side-products until controls were dialed in over many campaigns. Now, we keep real-time pH monitoring and closed nitrogen blanketing, which cut down exposure and suppressed oxidized byproducts. These changes stemmed from root-cause evaluations led by engineers, where no outside standard could capture the realities of full-scale manufacturing. Customers who came to us after facing cloudiness or instability with competing sources reported steadier results after switching to our material. We keep learning: ongoing process tweaks come from blending quality analysis with real end-user feedback.
Industry guidance on secondary amines and hydroxy compounds rarely covers the practical issues. Our safety teams work to minimize exposure—not just for regulatory compliance, but because anyone who runs production lines knows that splashbacks and small spills slow schedules and frustrate good people. We use closed transfer systems and have implemented double-sealed drums to keep both workers and product stable. It is tempting for some to chase aggressive pricing by accepting lower-quality inputs or untested supply lines, but we stay firm in keeping safety and repeatability as our priorities. This approach means fewer headaches downstream, both for production workers and end users.
Sustainability is more than a trend for us. Recovery of solvents and minimization of byproducts in Hydroxyethyl Piperidinol manufacturing reduces waste, but the real gains show up as lower batch failures and less line cleaning between campaigns. Years ago, we invested in a solvent recycling unit, which not only reduced disposal bills but also made our offering more consistent. For customers working under environmental permits or aiming for green chemistry certifications, a more reliable and efficient input chemical takes the pressure off compliance reviews.
Our best production improvements often start with unfiltered stories from customers. One coatings facility shared how a previous supplier’s Hydroxyethyl Piperidinol led to uneven product viscosity and shelf separation. Plant chemists diagnosed trace impurities and provided us with HPLC traces rather than complaints. After reviewing our own processes and shipment handling, we dug into alternative purification steps and re-invested in improved stabilization. Relationships like these shape our plant culture—production isn’t just a numbers game, it’s about people earning trust by fixing what matters most to their process.
Other industries explained how variations in isomeric purity impacted not just one step but cascaded through entire synthesis trees. We started offering batch-reserved material for critical pharma campaigns, ensuring full traceability and storage under inert atmosphere until customers picked up material. Instead of off-the-shelf logistics, we adapted to the realities of scale and regulation, based on feedback only real-world producers offer each other.
Price matters, but in process chemistry, failure costs more. With Hydroxyethyl Piperidinol, minimum order quantities often reflect the need for stable logistics and validated production lines. Lead times could be shorter if we cut corners, but experience shows shortcuts increase odds of last-minute surprises—especially for scale-up or campaigns feeding regulatory-licensed drug production. We invest in experienced operators, analytical QC, and on-site packing so every batch leaves our facility as promised.
Over the years, we’ve answered calls about unplanned changes in physical appearance, even when technical parameters passed tests. We revisit raw material sourcing and process parameters, then share corrective actions with partners. Only long-term producers recognize that small variations often make big impacts downstream—not just for the chemist running a pilot batch, but for logistics planners and maintenance teams counting on consistent performance. In this way, Hydroxyethyl Piperidinol isn’t just another commodity; it’s a chemical shaped by thousands of small improvements and conversations with people who know what is at stake.
The world of chemical manufacturing keeps shifting, challenged by both regulatory change and new end-market demands. We draw on experience—not only our own, but what’s shared between bench chemists and production staff from partner companies around the world. That knowledge base shows up in every improvement to Hydroxyethyl Piperidinol’s quality profile, packaging, and logistics. Whether the future brings new applications in green chemistry, higher-purity needs for biopharmaceuticals, or demand for greater process digitization, our approach remains anchored in listening, adapting, and delivering real value built from experience rather than speculation.
Chemistry, at its core, is about relationships—between atoms, molecules, people, and ideas. Hydroxyethyl Piperidinol serves as a proving ground for all these links: a product shaped by necessity, tested by those who demand results, and improved through direct feedback rather than industry trends. We continue to invest in its production because every day, real process data and real conversations show us how it adds more than just another line to a product catalog. For those building the next generation of active molecules or advanced materials, it doesn’t just play a role—it delivers, batch after batch, informed by those who know the meaning of every step from delivery dock to finished product.
