N-Propyl-N-Methylpyrrolidinium Actate stands out as a specialized ionic compound built from a pyrrolidinium base paired with an actate anion. Workers in chemical synthesis and advanced materials rely on it for its reliable characteristics and unique ionic structure. The molecular formula often appears as C10H21NO2, which represents a combination of an N-propyl and an N-methyl group attached to the pyrrolidinium ring, counterbalanced by the actate (acetate) anion. Most chemists see this compound in research and specialty applications where ionic liquids or task-specific solvents matter. This material shows up in laboratories, pilot plants, and occasionally in larger-scale solution reactions that focus on green chemistry or efficient extraction.
Working with N-Propyl-N-Methylpyrrolidinium Actate means handling a substance that can exhibit both solid and liquid forms, sometimes as a clear viscous liquid or as fine powder, crystalline pearls, or flakes under suitable temperatures and humidity. The melting point hovers at a moderate range, which makes it more adaptable for different process temperatures. That flexibility means researchers often favor it for processes needing ionic conduction or a stable but reactive base. Specific gravity or density usually sits near 1.05–1.15 g/cm³ depending on purity and sample handling. This density provides a clue about packaging and storage, especially if your operation moves lots of material per shipment or manages large liquid volumes per batch. Color may range from white to off-white, possibly picking up a slight yellow tinge if impurities seep in or if manufacturing steps run warm.
Molecular weight clocks in at approximately 187.28 g/mol. That number matters for chemists working through stoichiometry or calculating solution concentrations. The material dissolves well in polar solvents, including water and lower alcohols, a feature that users in liquid formulation exploit when crafting custom electrolytes or extraction media. High-purity material generally comes as a solid at room temperature, easily ground into powders or pressed into pearls for easier handling. Researchers value high-grade samples, so most suppliers focus on purity above 98%. The HS Code typical for this product falls under 2922.19, which covers organic compounds with nitrogen heterocycles but often varies slightly with local customs regulations. Users with import/export experience know tracking HS Codes avoids delays and ensures the right tariffs get applied.
Synthesis generally begins with pyrrolidine, methylating agents, and propylating reactants to generate the core N-propyl-N-methylpyrrolidinium cation. Careful addition of acetic acid or acetate completes the formation of the actate salt. Manufacturing flows aim for consistent batch purity, making solid or liquid forms as required by the customer. Solid batches may be pressed into flakes or formed into pearls for bulk sales, whereas liquid formats target instant mixing or applications as electrolyte media. Many labs choose the solid option for its longer shelf life and easier weighing, although technicians working at scale turn to pre-made solutions for time and safety savings. The popularity of each form hinges on downstream processes—solid handling fits best in precise small-batch settings, while liquid delivery supports industrial digestion or direct electrolyte preparation.
End users encounter N-Propyl-N-Methylpyrrolidinium Actate in advanced battery systems, solvent extraction, and catalysis. Some developers use it for research in green extraction processes or as a part of ionic liquid-based electrolytes for high-performance batteries. Its physical attributes—especially its viscosity and thermal stability—offer a strong platform for experimenting with new chemical systems where standard solvents struggle. Safety routines match other organic ionic salts. Spilled powder or droplets become slick underfoot; staff use gloves, goggles, and good ventilation. Some batches give off a mild solvent or vinegar smell if stored in damp places. Toxicity concerns remain low, but direct ingestion or prolonged skin contact raises risks, especially for sensitive users. MSDS sheets recommend standard chemical precautions, and most labs keep spill kits and neutralizers on hand. While flame hazards don’t rank high, poor ventilation builds up vapors in tight spots, so fans and open workspaces stay important for daily use.
Suppliers serve this material in packaging from small sample vials for research up to multi-liter drums shipped for industrial use. Supply chains connect global research labs, custom chemical companies, and major technology manufacturers. Knowing the HS Code 2922.19 makes cross-border shipments smoother and keeps paperwork in order. The chemical’s market depends on growth in green chemistry, especially ionic liquid solvents that promise reduced environmental impact. Regulatory frameworks focus on handling and labeling, demanding clear hazard communication on drums, vials, or printed MSDS sheets. Most buyers ask for Certificate of Analysis to verify purity, density, and physical profile. Competition between suppliers pushes long-term storage stability, so the best vendors document shelf life under standard lab conditions, generally 12–24 months if containers stay sealed and moisture-free.
Chemists interested in ionic liquid development see a clear opportunity with N-Propyl-N-Methylpyrrolidinium Actate. Its broad liquidus range, easy mixing with other salts, and strong electrochemical profile draw in researchers tackling battery, extraction, or separation processes. Factories scaling up bump into cost and consistency hurdles—batch-to-batch variation, incoming raw material fluctuation, and shipping delays can impact day-to-day flow. Supply teams work closely with reliable partners and build backup logistics to dodge unexpected interruptions. Safety managers invest in training and workshops about handling, PPE protocols, and chemical hygiene. Research teams push suppliers for detailed documentation: full specification sheets, detailed MSDS, and transparent tracking of HS Codes and shipment origins. Technical staff test every batch for density and melting point using standard lab equipment. In the push for better, greener, and safer chemicals, stakeholders in this field see N-Propyl-N-Methylpyrrolidinium Actate as both a promise and an ongoing project. Efforts to boost sustainable manufacturing, improve documentation, and streamline international regulations all move this product from niche lab staple toward broader mainstream use.
