alpha-Cyclohexyl-alpha-phenyl-1-pyrrolidinepropanol hydrochloride stands out as a synthetic organic compound used mainly in chemical research and advanced manufacturing settings. The substance’s molecular backbone features a cyclohexyl ring, a phenyl group, a pyrrolidine ring, and a propanol side chain, ending in hydrochloride salt form. This specific structure bestows this compound with a unique set of physical and chemical traits, making it useful as an intermediate and often as a raw material in novel synthesis tasks across chemical, pharmaceutical, and materials science sectors.
Molecular formula C19H29NO·HCl points to a molecule composed of nineteen carbons, twenty-nine hydrogens, one nitrogen, one oxygen, and a chloride ion. Molar mass lands near the 323-325 g/mol range. Appearance varies depending on storage and purity—mostly, it’s seen as white to off-white solid, sometimes forming as fine powder, crystalline flakes, or crystalline pearls. Under room temperature, the compound stays solid, with a melting point that drifts between 110°C and 130°C, a reminder of its moderate thermal stability. Bulk density tends to fall around 1.1–1.2 g/cm³, depending on granulation. In laboratory hands, this compound shows mild solubility in polar solvents such as water and ethanol, especially when presented as the hydrochloride salt. Aqueous solution stays clear and colorless, which signals high purity and absence of colored impurities. Solubility, melting range, and the consistency of the physical state play crucial roles in large-scale processing and downstream applications.
With a cyclohexyl ring and a pyrrolidine ring fused through a central carbon with a phenyl group, the molecule’s shape locks in certain properties—rigid yet flexible enough for various synthesis paths. The presence of secondary and tertiary amines, together with the alcoholic propanol function, provides unique reactivity points for coupling reactions and derivatizations. The hydrochloride salt increases water compatibility, bringing the compound into play for biological assays and chemical reactions sensitive to moisture content.
Quality standards hinge on purity, crystal form, melting point range, and solubility profile. Most suppliers promise 98% or greater purity, which helps avoid unwanted side products. Product may be packaged as coarse flakes, finer powders, or crystallized pearls to cater to process and measurement needs. The product ships in solid form, packed securely against moisture and air, due to moderate sensitivity. Some lots come in sealed aluminum bags or HDPE containers for long-term stability.
HS Code allocation often falls under 2933, which covers heterocyclic compounds with nitrogen hetero-atom(s) only—fitting for molecules with both pyrrolidine and aromatic motifs. Local authorities may list further subcodes, depending on end-use claims and degree of chemical specificity. Regulatory oversight extends to safe shipping, labeling, and reporting, as required for hazardous substances.
Extra care goes into handling alpha-Cyclohexyl-alpha-phenyl-1-pyrrolidinepropanol hydrochloride. Lab staff use goggles, gloves, and masks to avoid respiratory and skin exposure. Dust from the solid form may irritate eyes and mucous membranes. Inhalation or ingestion brings risk of acute toxicity, though specifics depend on dose and user sensitivity. Material Safety Data Sheets flag this compound as hazardous—its basic amine and alcohol functions can pose chemical reactivity risks, and hydrochloride salts often demand special disposal. Storage conditions favor cool, dry places away from sunlight and strong oxidizers, since long-term degradation produces unwanted byproducts or odors. Spills require careful sweep-up, with waste disposed following local chemical rules.
Research and pilot plant work lean on this compound as a starting material for drug discovery and advanced material preparations. Its functional groups accept further substitution or ring expansion, opening doors for analog synthesis. Specialty chemical producers may use it to test proof-of-concept reactions or optimize yields in ligand or catalyst development. Demand rises and falls with project cycles in fields like organic electronics or pharmacology, where bench-scale batches support proof-of-principle experiments or biological screens.
Key challenges include safe transport and clear documentation from suppliers. Secure packaging keeps product dry, limits exposure risks, and keeps bulk density predictable. To avoid exposure, training for staff goes beyond basic safety—emphasizing handling procedures, clean-up steps, and medical response in case of accidental contact. Modern facilities invest in air handling and filtration to minimize air contamination from powder handling. Disposal solutions focus on neutralization of amines and controlled incineration or treatment by licensed chemical waste handlers. Public data transparency and updated regulatory filings help customers track changes to safe-use practices and adapt workflows as new research reveals additional risks or benefits tied to this compound.
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