1-Acetyl-2-Pyrrolidine, known for its CAS number 758-96-3, often turns up across diverse research and industrial applications. This material draws attention for its chemical structure: a five-membered pyrrolidine ring with an acetyl group at the first position. Molecular formula C6H11NO and a molar mass of 113.16 g/mol anchor its core specifications. The compound generally appears as a white to off-white solid—sometimes flakes, sometimes powder, and occasionally as crystalline pearls, described by HS Code 2933990099. Specific density floats around 1.085 g/cm³. Beyond laboratory tests, its use spans pharmaceutical synthesis, specialty chemical manufacturing, and, now and then, fragrance intermediates. Knowing its form—whether it's a liter of solution, solid chunk, powder, or crystalline form—means understanding different delivery modes in today’s bulk market. This helps identify ideal applications and transportation considerations, especially when dealing with raw materials flagged as hazardous or harmful under GHS standards.
Sourcing 1-Acetyl-2-Pyrrolidine in recent years shifted noticeably towards Chinese suppliers and manufacturers. Competitive factory price often drives most inquiry and bulk purchase negotiations, especially for distributors looking to secure stable supply lines or free samples for quality testing. Many companies proudly highlight GMP-compliant factories, ISO- and SGS-verified quality certifications, plus a raft of compliance documents including SDS, TDS, Reach, Halal, and Kosher. These certifications build confidence when entering emerging or regulated markets. Direct purchase from Chinese manufacturers has often proven more cost-effective by cutting distributor markups. Transacting with suppliers promising OEM and private-label support opens up additional business models. For global buyers, transaction terms like CIF or FOB, minimum order quantity (MOQ), and transparent quote policies shape the real cost landscape.
Any raw material, especially one flagged for hazard, gets scrutinized for more than its price or appearance. With 1-Acetyl-2-Pyrrolidine, safety hinges on a thorough MSDS that outlines emergency handling, safe storage, and compatibility with other chemical groups. In my own experience, compliance with TDS and SDS is non-negotiable for any lab or factory introducing new chemical stock. With this compound, solution preparation requires careful attention to ventilation, skin protection, and spill protocols, supported by the right labeling and batch documentation. Its properties in various forms—flakes, powder, pearls—impact solubility and reactivity in subsequent syntheses. As demand for non-pharma applications grows, additional focus falls on environmental impact and supply chain transparency.
The demand curve for 1-Acetyl-2-Pyrrolidine closely tracks global pharmaceutical developments, especially in contract manufacturing or scale-up synthesis. Applications keep expanding: intermediates for active pharmaceutical ingredients, agrochemical precursors, and potential uses in electronic materials. Each market asks for its own level of certification, and many OEM brand managers require a steady stream of documentation, free samples, and in-depth market reports before bulk or wholesale commitment. Shifts in import policy, duty rates tied to the correct HS code, and REACH compliance shape trade feasibility—something every distributor or manufacturer negotiates regularly. Market pricing fluctuates based on purity, packaging size, and transport route, not just raw material availability.
Pursuing a reliable long-term supply chain for 1-Acetyl-2-Pyrrolidine means vetting not only the manufacturer’s quality system (GMP, ISO) but also logistics partners who understand safe packaging and labeling requirements for hazardous chemicals. History shows that sellers offering transparent supply policies, including prompt customer service for inquiries and sample quote requests, tend to build stronger loyalty and recurring business. Bulk buyers and smaller labs alike benefit from suppliers with clear quality certification (SGS, ISO, Halal, Kosher, and more) tied to each batch. Safe handling builds consumer and end-user trust, especially as buyers in India, the EU, and the Americas step up certification demands. In my own role sourcing niche chemicals, fast response on quote requests, willingness to furnish sample units, and clear answers on MOQ have always set apart sustainable suppliers from the rest. Real growth for everyone involved—manufacturer, distributor, end customer—rests on clear technical documentation, honest reporting of safe and hazardous properties, and continuous adaptation to new regulatory frameworks that often arrive with little warning.
