2-Morpholinoethylamine stands out as an organic compound with a unique chemical backbone, combining a morpholine ring with an ethylamine chain. This raw material falls under the category of amines. It often comes into play within pharmaceutical research, chemical synthesis, and serves as an intermediate for specialized coatings and resins. Users across chemical labs, industrial production floors, and academic research see its value due to a sturdy structure and versatility. This compound allows for precise modifications, opening paths for targeted reactions and customization where needed.
It’s built from a morpholine ring, known for its six-membered ring including both oxygen and nitrogen atoms, attached via a two-carbon ethyl chain to an amine group. This precise structure gives the compound its defining properties. The molecular formula, C6H14N2O, reflects its elemental composition — six carbons, fourteen hydrogens, two nitrogens, and one oxygen atom. Structural diagrams show the morpholine ring attached to a short, flexible chain, giving a good balance between rigidity and mobility for chemical manipulation.
2-Morpholinoethylamine takes several forms depending on purity, suppliers, and requirements: a clear liquid at room temperature, sometimes forming pale yellow crystals in cooler storage. Its relative density hovers around 0.98 to 1.00 g/cm³. In storage, it seldom forms solid flakes or pearls; more often, users encounter the raw chemical as a liquid or occasionally as a crystalline solid in high-purity conditions. The substance dissolves easily in water and organic solvents, making it straightforward to handle for dilutions, preparations, and reactions. The melting point sits just below standard room temperature, so the compound remains fluid on the shelf, making transfer and measurement practical.
For customs and international trade, the HS Code forms an important checkpoint, ensuring compliance and proper taxation. This compound fits under HS Code 2922199090, assigned to organic compounds with a heterocyclic ring structure containing nitrogen. Accurate classification speeds up import and export, clears regulatory hurdles, and guarantees safe movement across borders.
In the world of specialty chemicals, 2-Morpholinoethylamine has earned its place as a reliable raw material. Pharmaceutical development leans on this compound for the production of active ingredients, supporting the design of therapy candidates targeting neurological or metabolic conditions. The compound's reactivity extends to the creation of resins and advanced polymers, especially in coatings and adhesives, where chemical stability and reactivity boost performance. Paint manufacturers, for example, look to it for cross-linking properties, adding durability to protective layers on industrial equipment. Water treatment specialists may use it to tailor corrosion inhibitors or adjust pH in sensitive pipelines.
Tough tasks in synthetic labs often demand chemicals that combine strong basicity with reasonable solubility. 2-Morpholinoethylamine delivers a usable pKa value, offering a strong base in solution. It reacts predictably with acids to yield salts, helping researchers fine-tune solubility or adjust ionic strength for their applications. Its tertiary amine feature makes it less susceptible to unwanted side reactions, enabling more targeted results. Whether stabilizing intermediates or feeding as a reactant in multi-step synthesis, it consistently serves both routine and highly specialized needs.
Every interaction with 2-Morpholinoethylamine deserves careful attention. This chemical carries risks that can harm skin, eyes, and respiratory systems if handled thoughtlessly. Inhalation of vapors or direct skin contact leads to irritation. Long-term exposure or large spills call for attention: gloves, goggles, and well-ventilated spaces reduce hazard. The manufacturer’s safety guidelines point to safe ranges and emergency measures, supporting a healthy laboratory or industrial workplace. Material safety data sheets spell out the need for chemical-resistant materials, immediate spill cleanup, and controlled waste disposal, keeping the environment and personnel protected.
To maximize shelf life and keep risks low, users rely on airtight containers built from resistant materials like HDPE or fluorinated plastics. 2-Morpholinoethylamine needs cool, dry storage away from heat sources, oxidizing agents, or acids. Even a minor leak results in an odorous, irritating release. Suppliers offer it in sealed drums, jerrycans, or bottles of liter-scale and larger, matching industrial scale needs. Locked storage areas and clear hazard labels help prevent accidental misuse or mixing with incompatible substances.
In talking about any chemical with unique properties and hazards, education makes a clear difference. Regular training sessions for new and experienced staff increase safe handling and situational awareness. For accidental exposure, responding with clean water rinses and quick removal of contaminated clothing proves decisive. Digital inventory tracking and scheduled inspections catch errant containers or expired batches before they cause trouble. Larger manufacturers invest in on-site ventilation upgrades and automated dispensing equipment, further reducing human error. Waste treatment upgrades, including neutralization tanks, keep discharges in check, following local regulations for chemical safety.
As industries push for more sustainable practices, research has started highlighting alternatives and greener processes that either modify or replace key synthesis steps with less hazardous raw materials. For tasks that keep 2-Morpholinoethylamine in demand, both suppliers and customers share a responsibility — seek higher purity, improved safety profiles, and better documentation. A transparent supply chain with reliable testing and clear labeling leads to consistent quality and cuts down on unexpected risks. Up-to-date technical sheets and cooperation with regulatory bodies strengthen trust, keep business moving, and protect the next generation of chemists, engineers, and end users.
