2-Aminomethyl-1-ethylpyrrolidine stands out as a versatile raw material in laboratories and production lines worldwide. Structurally, it belongs to the family of cyclic secondary amines, specifically a pyrrolidine ring substituted with an ethyl chain and an aminomethyl group. The molecular formula bites down to C7H16N2, and studies have pegged its density at about 0.89 g/cm³. Normally, it presents itself as a colorless to pale yellow liquid, sometimes described as solid under certain storage temperatures, with a faint fish-like smell that makes it quite distinct on the chemist’s bench. The compound falls under the HS Code 29333990, meaning logistics and legal teams in charge of imports and exports check off this number for customs compliance, especially with supply from China supply manufacturer GMP-factory-price chain.
Working with this chemical calls for a proper understanding of its MSDS and safety profile. As someone who has spent time dealing with chemical raw materials, missing out on hazard classification risks not just legal snags but also health. 2-Aminomethyl-1-ethylpyrrolidine, according to its MSDS and REACH registration dossiers, deserves full PPE—gloves, goggles, lab coat—mainly because it causes irritation upon skin or inhalation contact, and like most organic amines, can be harmful if mismanaged. International protocols such as ISO, SGS, and TDS underline quality requirements, and though some factories in China offer halal and kosher certified material as part of the global market’s demand, not every supplier upholds strict certification. Factories, especially those exporting in bulk CIF or FOB conditions, often need to keep up with additional documentation—purchase orders, distribution agreements, and certificates including GMP and quality assurance reports, all embedded into the bulk chemical supply chain.
Buying 2-aminomethyl-1-ethylpyrrolidine means entering a market laced with changing prices and fluctuating policy. Most buyers reach out to manufacturers for a quote, looking for the best factory price or purchasing through a distributor who can ensure timely shipment and stock availability. The world looks at China as a major supply base; Shanghai port often features in shipping documents for CIF and FOB deals. Media reports and market demand analysis suggest that bulk buyers prefer MOQ terms clearly explained, usually running into several metric tons for commercial-scale orders, and some manufacturers agree to supply samples free of charge for research and testing before closing a purchase contract.
Market research also shows a growing tendency among buyers to request SDS and MSDS documentation along with TDS and reach-compliant certificates. Without these papers, risk managers hesitate to proceed with bulk shipments. Importers now stress Halal, kosher, and even OEM sourcing agreements to keep pace with both regulatory audit trails and end-user scrutiny for downstream applications. As a raw material, 2-aminomethyl-1-ethylpyrrolidine plays a role in the pharmaceutical sector, notably as an intermediate or a building block when developing active pharmaceutical ingredients (APIs), but also turns up in fine chemical synthesis for agrochemical and specialty applications, sometimes even surfactants or functional fluids. The structure’s flexibility—both in being handled as a liquid and occasionally as a solid or crystal—makes it attractive for custom synthesis houses. Molecular property, as shown in various product specifications, supports its utility for advanced research and polymerization reactions.
Stepping onto the factory floor highlights the juggling act of product purity, batch consistency, and marketplace demand. End users—from pharmaceuticals to new materials research—often buy 2-aminomethyl-1-ethylpyrrolidine based on strict specifications such as purity percentages (98% or higher for most applications), low impurity profiles, and robust ISO/SGS/REACH certifications. While competition around price per kilogram and bulk discounts means buyers scour for the best manufacturer or distributor, quality and safety always pull rank in procurement checklists. Third-party lab certification, TDS validation, and full compliance with hazardous chemical transportation laws have become the norm, particularly as markets in Europe and North America ramp up scrutiny. Literature reviews and industry news regularly highlight the pitfalls of relying on “no-brand” sources lacking SDS, TDS, or genuine GMP credentials, with some notorious recalls reported over improper handling and documentation fraud.
On the hazardous side, this chemical scores moderate to high on risk indices, with potential acute hazards tied to inhalation or accidental spills. Large buyers increasingly require all shipment lots to be labeled with specific batch numbers, transport conditions, and shelf life. Factories must maintain warehouse conditions within set temperature and ventilation standards and supply insurance-backed MSDS, even for “free samples” being shipped as part of a quote process. Market players have seen inquiries spike around REACH policy compliance; European buyers now often ask for documentary proof even before opening an inquiry or considering a purchase order. Several factories have established in-house ISO or OEM labs to check outgoing goods and satisfy buyers seeking certified or custom formulations. As more firms reach into global supply chains, halal and kosher certification also rises in demand, reflecting both regulatory necessity and market-driven trends.
Regarding form, this chemical appears as a liquid, occasional solid, or even melt into flakes or pearls depending on seasonal storage. Warehousing teams keep close tabs on specific density, moisture content, and batch aging. Protocol calls for careful segregation from strong oxidizers and acids. Long-term users push for best-in-class packaging—HDPE drums or steel IBCs, nitrogen blanketed for long hauls—or smaller custom liter solution packages for research operations. Market reports suggest that technical support, sample availability, and flexible MOQ greatly impact repeat orders, and distributor partnerships often make the difference in closing sales, especially for countries requiring local compliance or certifications beyond standard MSDS, like ISO13485 for medical intermediates.
For industry outsiders, it’s tempting to treat every chemical raw material as just another commodity, but user experience, reliability of supply, and document transparency weigh heavily. The best suppliers—mainly factories certified to GMP standards in China or leading distributors with a network across Europe, the US, and Middle East—provide end-to-end support: real-time logistics visibility, technical Q&A, full documentation, and a robust return policy for out-of-spec shipments. More established manufacturers in China even allow site visits, send evaluation samples by express, and offer quotations in both USD and RMB depending on buyer preference. I have seen many buyers burn cash chasing “low-price” offers, only to end up paying more through quality disputes or hidden customs fees due to missing HS code compliance.
Keeping up with global market news and policy updates shapes every purchasing decision. Applications as wide-ranging as pharmaceutical synthesis, specialty coatings, surfactant intermediates, and advanced polymers put fresh attention on the safety records and environmental impact of manufacturing. With market demand on a steady rise and strict customs regulations in place, distributors and direct buyers now review every aspect: TDS/SDS completeness, OEM capability, up-to-date REACH and ISO certificates, and—more often than not—halal, kosher, or bespoke certification depending on industry or regional requirements. Those who value consistency, documented hazard management, and easy inquiry access—across email, secure portals, or live chat—tend to build safer, more reliable supply chains.
