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HS Code |
820199 |
| Iupac Name | Propan-1-amine |
| Common Name | 1-Aminopropane |
| Chemical Formula | C3H9N |
| Molar Mass | 59.11 g/mol |
| Cas Number | 107-10-8 |
| Appearance | Colorless liquid |
| Odor | Ammonia-like |
| Melting Point | -83 °C |
| Boiling Point | 48.6 °C |
| Density | 0.720 g/cm³ (at 20 °C) |
| Solubility In Water | Miscible |
| Vapor Pressure | 430 mmHg (20 °C) |
| Flash Point | -17 °C |
| Refractive Index | 1.387 (20 °C) |
As an accredited 1-Aminopropane factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1-Aminopropane is packaged in a 500 mL amber glass bottle, tightly sealed with a screw cap, and marked with hazard labels. |
| Shipping | 1-Aminopropane is shipped in tightly sealed containers made of compatible materials, such as steel or approved plastics, to prevent leakage and contamination. It should be transported under cool, well-ventilated conditions, away from heat, ignition sources, and incompatible substances. Proper labeling and adherence to hazardous material regulations are mandatory during shipping. |
| Storage | 1-Aminopropane (also known as n-propylamine) should be stored in a cool, dry, and well-ventilated area away from heat, sparks, open flame, and incompatible materials such as acids and oxidizers. Containers must be tightly closed and clearly labeled. Store in approved chemical containers with secondary containment to prevent leaks or spills. Always follow safety guidelines and legal requirements for storage. |
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Purity 99%: 1-Aminopropane with purity 99% is used in pharmaceutical synthesis, where it ensures high-yield and low impurity formulations. Boiling Point 48°C: 1-Aminopropane with a boiling point of 48°C is used in volatile organic compound studies, where it provides precise temperature-dependent reaction kinetics. Molecular Weight 59.11 g/mol: 1-Aminopropane with a molecular weight of 59.11 g/mol is used in analytical calibration, where it enables accurate quantitative results. Stability Temperature 25°C: 1-Aminopropane with stability at 25°C is used in ambient storage applications, where product integrity is maintained over time. Viscosity 0.25 cP: 1-Aminopropane with viscosity 0.25 cP is used in chemical process engineering, where it enhances optimal flow characteristics in reactors. Melting Point -91°C: 1-Aminopropane with a melting point of -91°C is used in low-temperature reaction systems, where it supports performance under cryogenic conditions. Water Solubility: 1-Aminopropane with high water solubility is used in aqueous solution formulations, where it ensures rapid dissolution and homogeneous mixing. Density 0.74 g/cm³: 1-Aminopropane with density 0.74 g/cm³ is used in material compatibility testing, where it offers reliable density-related behavior assessment. Reactivity Grade: 1-Aminopropane with high reactivity grade is used in amine functionalization reactions, where it allows efficient grafting processes. Flash Point -18°C: 1-Aminopropane with a flash point of -18°C is used in safety-critical chemical assessments, where it facilitates accurate risk evaluation in volatile environments. |
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As a producer of 1-aminopropane—known in many laboratories and process plants as n-propylamine—we see every day how this amine shapes a wide spectrum of industrial activities. Working at the source of production, our team has watched markets make choices based on reliability and performance far more than on promotional promises. The demand proves steady because decision-makers—be they in coating plants, pharma lines, or custom synthesis labs—look for raw materials that stand up to real process conditions, not just paperwork benchmarks.
Our product delivers pure 1-aminopropane, sourced and refined at our own facilities for maximum consistency. The CAS number for this compound is 107-10-8. What engineers and chemists appreciate most in our n-propylamine is the absence of surprise impurities. Each drum or tanker holds a clear, colorless liquid, with specifications tracking down to the typical purity range of 99.5% and above. Water content stays exceptionally low, often below 0.2%, as verified by in-house and third-party labs using traceable methods. Every batch bears a lot code for transparent traceability all the way back to our reactors.
The practical uses of 1-aminopropane tell us much about its strengths. There’s no one-size-fits-all approach among end users. Agrochemical manufacturers look for this amine as a building block—integral in the formation of herbicide intermediates, fungicidal blends, and select plant-protection agents. Because it reacts predictably with acids and activated esters, chemical engineers build reliable synthetic routes around it, reducing process hiccups and maintaining throughput. In the pharmaceutical arena, n-propylamine supplies the amine function in APIs, intermediates, and custom molecules. Early-stage research operations find it a staple for introducing n-propyl groups onto scaffolds. Notably, its basicity and slightly less steric hindrance compared to bulkier alkylamines make it ideal for alkylations, reductive aminations, and even as an ion exchange resin precursor.
Clients in elastomer, coatings, and resin plants also value the balance 1-aminopropane brings to curing systems, especially when compared to methylamines or longer-chain analogs. Its volatility profile allows for manageable process venting, and lower toxicity than shorter-chain amines like methylamine supports safer working environments. Our teams frequently support adhesive formulators and rubber vulcanizers who count on the straightforward reactivity and fast clearance of this compound in their process cycles.
Purity control stands not as a box-ticking exercise but as a central requirement for such uses. Whenever a batch exceeds the amine value specifications blessed by industry standards, it’s rejected internally—our customers never see out-of-spec material. Analytical records and retained samples back up every certificate. Several partners, particularly in pharma and crop protection, audit us regularly, checking not only paperwork, but plant cleanliness, waste streams, and raw material integrity.
On customer visits, we’re often asked how 1-aminopropane measures up against familiar alternatives. Our hands-on experience shows important differences beyond just boiling points on a chart. Compared to ethylamine, n-propylamine brings a safer handling profile and less acute volatility, with a flash point above room temperature. Odors tend to be less pungent as well, easing the burden on air treatment and emissions control.
In contrast with isopropylamine, the n-propyl variant provides a more linear structure, impacting downstream reactivity and partitioning behavior. For instance, solvent extractions and resin polymerizations often give higher selectivity or fewer byproducts when operating with a straight-chain amine. End users in pharma and ag-chem sometimes swap n-propylamine into a process exactly for these reasons, especially if they seek sharper product isolation or fewer color-bodies in end products. Larger amines, like butylamine, increase boiling points and oil solubility, but they can introduce more unwanted residues, require higher temperature control, or complicate nitrogen balancing calculations.
On the regulatory side, n-propylamine’s established file and robust global supply lines support business continuity for formulators following REACH, TSCA, and similar requirements. Its physicochemical profile allows for safer long-distance shipping, and the worldwide recognition of this compound means customs and regulatory hurdles rarely surprise. Most storage and transport guidelines align with those already used for other primary alkylamines; our experienced shipping staff double-checks batch documentation for hazard labeling, but we’ve found this product presents few headaches next to smaller or reactive amines.
Investing in our own reactors and distillation operations, we see every batch through from initial charge to final packaged drum. Years ago, outsourcing meant risking trace contamination or inconsistent profile from outside tollers—so we brought all key synthetic steps on-site. There’s a legacy, too, from long-standing operators who’ve handed down practical tricks to ensure reproducible yields. Now, automated process controllers guarantee a gentle balance, but human know-how still resolves tricky moments—adjusting reflux rates, tuning vacuum pull, or scheduling maintenance before off-odors creep in.
All raw materials are sourced from audited, long-term suppliers. The propanol starting material comes with tight GC fingerprints, and all amination steps are monitored by trained staff cycling through critical process windows. We run random sampling of intermediate stocks to confirm no build-up of off-type isomers, amides, or secondary amines, and invest in fresh catalyst beds frequently. By controlling amination and separation steps, risk of mixed-amine impurity falls far below what we observed operating under tolling agreements.
End-users see this difference as shorter problem-solving cycles and fewer upset batches. Often, customers who previously sourced from multi-stage supply chains now see increased yield (sometimes approaching theoretical conversion) and fewer down-days on account of raw material quality. Our own logistics chain steps in at the plant gate, not the port, letting us intervene rapidly if a drum or tote faces shipping issues—something traders or third-party aggregators simply can’t match for speed.
Shipments head out from our own warehouses to clients across continents, most often as bulk tankers, drums, or ISO containers. In high-turnover sectors, customers value just-in-time deliveries—our system links production planning to order books, so replenishment hits the dock without backlog or storage risk on their end. For higher-purity grades, especially in pharmaceuticals, orders integrate batch reservation with upfront sampling to guarantee the chosen lot matches the end-spec laid out in the quality agreement.
Over the past decade, dedicated routes have made it possible for us to offer shorter delivery windows, fresher inventory, and rapid backfill in off-cycle emergencies. Rather than relying on resellers to communicate delays, our logistics team works directly with freight partners and customs brokers. Real-time tracking updates keep buyers informed at every juncture. This enables direct feedback if a heat lorry faces potential delay, so alternative routes or transfers activate in hours, not days.
Many customers who return to us after working with middlemen share similar reasons: they require certainty regarding origin, tracking, and stewardship extending before delivery. As the manufacturer, our word connects straight to the reactor—troubleshooting, batch reserves, and technical support all run from one organization. No passing the message down a chain, no ambiguous lot tracing.
A primary concern for chemical users is waste minimization and employee protection. On the ground, these challenges face us as much as they do our customers. Manufacturing and refining 1-aminopropane yields wastewater streams and vented amine emissions, which, left unchecked, would disrupt local air and water balances. To answer this, we employ on-site purification and closed-loop vent collection. We recover and reclaim not just spent process amines but water and minor byproducts. This holistic management cuts environmental discharge figures every quarter, verified by environmental audits and cross-checked against published local reporting requirements.
Handling volatile primary amines brings occupational health questions. Workflows channel all process steps behind sealed systems, automated to limit hand interaction. Our employees train regularly on handling ammonia derivatives and flammable compounds, taking lessons from both in-house incidents and industry case studies. Gas sensors, scrubbers, and quick-access PPE sit at handover stations. No chemical leaves the plant without full manifest and hazard documentation. For nearby communities, our odor abatement is double-shielded and air quality monitored by third parties, maintaining transparency.
End-users call us for more than sales. Process chemists, plant engineers, and innovation leads want working-level advice on issues like selectivity, scale-up, or byproduct minimization. Our applications lab, staffed by chemists involved in core production, fields technical questions—sometimes troubleshooting with client-side R&D teams on conference calls or plant walks. Unlike distributorships, where answers travel down a sales chain, our support draws on hands-on knowledge of the reactors, batch records, side reactions, and the logistics of the supply chain behind each drum.
Case studies from our files reveal how formulation tweaks correct emissions or reduce raw material costs. One partner in rubber processing improved crosslinking strength by fine-tuning their use of 1-aminopropane following joint evaluation of heat maps and off-gas composition with our crew. Another manufacturer shortened batch cycle time by introducing a direct-feed protocol, based on QC best practices borrowed from our daily plant schedule.
As new regulations and customer requirements emerge, our support teams work ahead of compliance changes, adjusting production records and preparing anticipation data sets for regulatory filings. Plant managers count on this kind of direct manufacturer connection because advice comes grounded in what’s possible on the factory floor, not just what regulations demand.
The outlook for 1-aminopropane production and usage continues to evolve. Downstream innovation pushes us toward more sustainable process routes, lower carbon footprints, and safer workplace practices. Catalysts and reaction conditions keep shifting; advanced monitoring tools allow us to detect micro-impurities earlier, leading to sharper control of the final product. Engineers and chemists in the plant experiment with flow chemistry setups and semi-batch cycles—continually refining how to bring better yields and tighter process control to each run.
Research partnerships play a role in these developments. Engagements with academic labs, industrial consortia, and peer producers deliver fresh insights every year. Advanced lifecycle assessments of our process reveal new points for improvement, from solvent recovery to green hydrogen usage in feedstock amination. We assess pilot trials and small-scale implementations before any plant-level overhaul; every improvement is tested for stability, safety, and reproducibility at meaningful scale.
We also see the rise of digital systems—plant-wide monitoring platforms, real-time ERP integration, predictive maintenance—pushing efficiency. Very often, these investments look invisible to the external observer, but they help shave offoperational overhead, reduce unplanned downtime, and support safer, more accountable operation.
Volatile global logistics, raw material swings, and regulatory surprises test any chemical supplier’s resilience. Our position as the manufacturer of 1-aminopropane means ongoing vigilance to international freight costs, currency fluctuations, and the sometimes unpredictable pace of trade policy. This is not abstract theory; missed shipments, delayed raw materials, and sudden import restrictions challenge us directly. We buffer these swings by keeping raw material contracts staggered across multiple geographies and by holding strategic inventory at our own sites.
Our approach blends forecasting, hedging, and flexible fill schedules. When upstream plant incidents disrupt global supply, close communication with core clients lets us prioritize critical deliveries. Rather than assigning leftovers from a resold pool, we schedule new production based on urgency, destination, and contractual need. Reliability in this business comes from knowing not just molecules, but the markets, the paperwork, and the rhythms of global supply.
Efforts to phase out less sustainable or higher-risk amines in customer processes often involve shared technical programs. Through these, we help clients migrate from legacy alternatives to 1-aminopropane solutions that reduce risk, waste, and cost. These collaborative efforts not only strengthen commercial relationships but demonstrate our willingness to go beyond supplying drums—we solve real-world plant problems in real time.
Experience at the production site teaches lessons that can’t be learned from datasheets alone. Each lot of 1-aminopropane that leaves our facility reflects years of process refinement, supply chain management, and direct customer engagement. For buyers who value direct lines of communication, quick troubleshooting, and quality they can trace to the source, choosing a genuine manufacturer makes a difference every step of the way. Our teams stand behind each shipment with knowledge, transparency, and a focus on both present-day needs and future market evolution. For industries driving innovation, efficiency, and safety, this amine continues to earn its place as a trustworthy foundation in new and established applications alike.