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HS Code |
468309 |
| Productname | 2,2,2-Trifluoroethylamine Hydrochloride |
| Casnumber | 373-87-5 |
| Molecularformula | C2H5ClF3N |
| Molecularweight | 135.52 g/mol |
| Appearance | White to off-white crystalline solid |
| Meltingpoint | 144-148 °C |
| Solubility | Soluble in water |
| Synonyms | Trifluoroethylamine hydrochloride, TFEA·HCl |
| Purity | Typically ≥98% |
| Inchikey | SWWFMRZFFSFZFS-UHFFFAOYSA-N |
| Ecnumber | 206-758-5 |
| Smiles | C(CN)(F)(F)F.Cl |
As an accredited 2,2,2-Trifluoroethylamine Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99%: 2,2,2-Trifluoroethylamine Hydrochloride with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high-yield and low-impurity product formation. Melting Point 148°C: 2,2,2-Trifluoroethylamine Hydrochloride with a melting point of 148°C is used in solid-phase peptide synthesis, where it provides stable integration during high-temperature synthesis routes. Molecular Weight 135.53 g/mol: 2,2,2-Trifluoroethylamine Hydrochloride with a molecular weight of 135.53 g/mol is used in organofluorine compound development, where precise stoichiometric dosing improves reaction reproducibility. Particle Size <75 µm: 2,2,2-Trifluoroethylamine Hydrochloride with particle size less than 75 µm is used in fine chemical manufacturing, where enhanced dissolution rate accelerates reaction kinetics. Stability Temperature up to 40°C: 2,2,2-Trifluoroethylamine Hydrochloride with stability temperature up to 40°C is used in regulated storage environments, where it minimizes degradation and ensures product shelf life. |
| Packing | A 25g amber glass bottle, tightly sealed with a screw cap, labeled with product details, hazard symbols, and handling instructions. |
| Container Loading (20′ FCL) | 20′ FCL typically loads 10-12 metric tons of 2,2,2-Trifluoroethylamine Hydrochloride, packed in 25 kg fiber drums or cartons. |
| Shipping | 2,2,2-Trifluoroethylamine Hydrochloride is shipped in tightly sealed, chemically resistant containers to ensure safety and stability. It is transported in accordance with relevant regulations, such as DOT and IATA guidelines, and stored in a cool, dry place, away from incompatible materials and moisture to maintain product integrity during transit. |
| Storage | 2,2,2-Trifluoroethylamine Hydrochloride should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area, away from moisture and incompatible substances such as strong oxidizers. Protect from light and avoid prolonged exposure to air. Handle with appropriate personal protective equipment and follow standard laboratory safety protocols to prevent inhalation or contact with skin or eyes. |
| Shelf Life | 2,2,2-Trifluoroethylamine Hydrochloride typically has a shelf life of 2 years when stored in a cool, dry, and sealed container. |
Competitive 2,2,2-Trifluoroethylamine Hydrochloride prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
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Tel: +8615651039172
Email: sales9@bouling-chem.com
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Every lab bench, whether in pharma, agrochemicals, or specialty chemistry, contends with the same pain when it comes to sourcing intermediates for complex molecular designs: unknowns in purity, inconsistency from run to run, impurities from undisclosed origins. Our team has been producing 2,2,2-Trifluoroethylamine Hydrochloride for years, not as a side offering, but as a core specialty we consistently improve for scientists who demand assurance with each new batch.
2,2,2-Trifluoroethylamine Hydrochloride serves as a critical intermediate where the delicate balance of trifluoromethyl group reactivity and primary amine functionality opens doors. Pharmaceuticals, pesticides, and fluorinated polymers are just some of the sectors that lean on it. In drug discovery and development, even tiny shifts in impurity levels or moisture content can derail timelines or stall downstream testing. We recognize this from decades of direct feedback with project leads who have had progress delayed for avoidable reasons, so our production always puts reliability above cost-cutting short-cuts.
What sets our 2,2,2-Trifluoroethylamine Hydrochloride apart isn’t only purity (which sits above 98%, batch after batch, as independently verified by in-house and external labs), but also the way we protect the integrity of that purity after synthesis. Many producers let product sit exposed while waiting for packaging or ship with microbially contaminated solvents still present. Since our in-house analytics flagged several process points as sources of subtle variance, we overhauled our entire workflow—from closed-system distillation to certified packaging partners. As a result, you won’t find mystery degradation on your desk, and you won’t have to repeat screens due to batch-to-batch drift.
We never blend down to a specification or mask problems with additives. Our team investigates every deviation and forwards reference spectra on demand, so your team has full transparency. Given the wide range of substitution reactions and coupling chemistries this material impacts, the margin for uncertainty is razor-thin. You can bank on the hydrochloride salt staying stable across reasonable storage and transport, and we control every variable that could otherwise introduce unknowns.
Papers only tell half the story. Testing in real-world conditions matters. Our batches consistently exceed 98% GC purity, and large-scale lots stay within narrow moisture content ranges, confirmed just before shipment. Even trace-level analysis (NMR, LC-MS, Karl Fischer, PXRD) takes place on random samples from packed drums—not only on lab-scale. This practice keeps surprises at bay, especially for clients running regulated or scale-up projects with tight control on trace contaminants. Years ago, a partner flagged intermittent micro impurities, pushing us to audit solvents and change pre-treatment. Since then, our trace impurities register among the lowest in the sector, not just on paper, but in practice, lot after lot.
Packaging has taught us just as much as synthetic chemistry. Early on, moisture ingress led to infrequent clumping in the hydrochloride salt. Borrowing approaches from the food industry and collaborating with packaging chemists, we replaced standard bags with triple-laminate, vapor-barrier pouches inside rigid drums. That switch dropped customer complaints to near zero and protected shipments over transcontinental hauls. We don’t allow a single package to leave without a full documentation file that includes packaging integrity data and transport stress records. Teams relying on real-world experiments know to expect all these things as prerequisites, not options.
In pharmaceuticals, where a single functional group decides the fate of a candidate molecule, customers choose our 2,2,2-Trifluoroethylamine Hydrochloride for reductive aminations, N-functionalizations, and for assembling side chains with pharmacokinetic significance. The compound’s trifluoromethyl group profoundly impacts the metabolic stability and lipophilicity of drug candidates. Over the last decade, chemists developing CNS, anti-cancer, and antiviral agents have all used our product knowing that unexpected side products or residual aldehyde content won’t compromise their SAR or toxicology screening. We’ve seen first-hand how missteps in early leads snowball into expensive late-stage corrections—so every step we optimize reflects the reality of drug development teams facing these obstacles daily.
Agrochemical developers have similar needs but with even higher scale, so we developed larger batch production to support kilo or ton-level projects. Our reactors were re-tasked and process validation expanded as we encountered practical hurdles such as trace heavy metals, residual by-product amine salts, and even seasonal environmental factors that affect synthesis. Recent years have seen this product boost the efficiency of selective insecticides, improve herbicide stability, and deliver consistent results for industrial-scale peptide and polymer coupling.
Advanced materials firms chase next-generation polymers that pair environmental resistance with precision-tuned electronic properties. The electron-withdrawing nature of 2,2,2-Trifluoroethylamine Hydrochloride invites consistent fluorination, and our batches serve as reference standards for industrial R&D programs. Our technical service teams routinely consult with polymer scientists at the bench and pilot levels, supporting tailored approaches for both academic papers and pilot plant deployments. It’s not rare for project teams to request single-lot documentation and on-demand consultation, and we provide these directly, not through agents who may lack technical training.
We produce 2,2,2-Trifluoroethylamine Hydrochloride starting at each raw material point, never relying on unknown blendstock or third-party intermediates. This full-traceability model means any investigation can track back to the exact lot of upstream reagent, a standard we see only rarely outside of direct manufacturers with vertical integration. Traders and distributors typically can’t provide this level of documentation or process transparency. We’ve partnered with teams burned by opaque supply chains: organic by-products, undeclared contaminants, or even regulatory issues related to untested sources. These experiences drove our commitment to full-chain stewardship and direct-to-customer transparency.
Each run includes stability stress tests—long-term ambient storage, freeze-thaw cycling, and transport in non-climate-controlled conditions. Our commitment to robust stability lets process chemists skip extra purification steps, saving time on method development. Over the past five years, our tracked returns due to stability issues dropped to zero because we catch and fix each issue before shipping. We share comprehensive analytical and process information—not only a basic CoA. Customers tell us this baseline trust frees them to push boundaries in their own programs. The difference is more than a label—it’s our fingerprint on every bottle, drum, and sampling pouch.
In practice, safe handling drives scalable chemistry. Our team trains staff with direct guidance from local work-safety agencies and international pharmaceutical standards. We consulted process safety engineers to chase down small but critical hazards: amine off-gassing, trace acid misting, or packaging abrasion that exposes content to moisture. Every trained technician handling this compound understands its short- and long-term exposure limits and treats product sampling as critical, not procedural. These safeguards make it possible for our customers to focus on research, not incident management or remediation.
Our facilities address clean-room standards, especially for pharmaceutical-focused batches. Environmental monitors trigger interventions well before specification breaches, and our cleaning validation program tracks even sub-ppm residues in shared-use reactors. These aren’t formalities. A decade back, a customer flagged a mystery reactivity drop traced to batch-to-batch trace acid contamination. Investigation led to new solvent management and tank lining upgrades, eliminating recurrence. Lessons learned from the field shape our QA processes to this day.
With global sourcing, shortcuts appear tempting. We’ve vetted dozens of alternative market sources over the years, always weighing cost, documentation, and performance. Direct analysis on off-brand lots exposed cut corners: residual solvents above stated limits, unfiltered catalyst metals, non-homogeneous particle size, even outright mislabeling. Those issues might sneak by on a spec sheet, but not in a scaled process or a regulatory audit. This is why our quality team archives every in-process step, and we keep reference samples for every ton ever produced. This active vigilance helps protect downstream users and speeds up root-cause analysis in the rare case a question arises post-shipment.
Rather than chasing lowest-cost production, our team invests in tool upgrades, batch-level analytics, and continuous feedback loops from the very chemists who use this product every week. We structure contracts for long-term access and shared risk, not single-use sales. This culture encourages real dialogue with customers: process tweaks, impurity reduction targets, alternative packaging if needed, and post-shipment tech support come standard, not as paid add-ons. Getting the molecule right is only half the work; supporting researchers and developers daily completes the picture.
Our 2,2,2-Trifluoroethylamine Hydrochloride acts as a springboard for innovation. Small startups, leading university labs, and global corporations count on it for core synthetic steps. Over the years, we’ve partnered with engineers who need test samples for new reactor designs and with startup biotechs betting entire platforms on the success of just a handful of intermediates. We draw on these experiences to tailor our lot sizes, shipping methods, and documentation directly to their pace and scale.
Requests for kilo to multi-tonne increments don’t freeze our pipeline. We’ve optimized scheduling so that custom batch sizes fit into our production matrix without compromising delivery timelines for smaller academic projects. Regular communications with seasoned practitioners at both ends of the scale allow us to foresee and preempt disruptions that a purely transactional supplier might overlook. Even special packaging for remote or hazardous sites comes direct from our operations—no guesswork or third-party handoff.
No production conversation escapes environmental scrutiny now. Modern manufacturing faces regulatory tightening and rising customer demand for greener chemistry. We’ve retrofitted production lines to minimize waste, reclaim solvents, and reduce energy intensity in the purification process. Our effluent is monitored not only for regulatory compliance but for fringe trace materials that past audits flagged as emerging issues. By investing in process improvements up front, we lower the footprint per kilogram delivered and reduce the need for downstream remediation by partners who rely on clean input chemistry.
Packaging waste stands as a growing concern, so we offer take-back programs for large-scale users and maintain documentation tracing packaging integrity in all climates. Long-term buyers comment on durability under tropical or subzero extremes—feedback we feed directly into our packaging improvement log. Everyone wins when packaging reliability closes the loop between raw material and finished product while reducing the net global waste our sector produces.
Not all companies offer open access to their process or technical personnel. We maintain a national and international line direct to chemists and QC teams—not only a sales desk. Analytical data, shelf-life validation, and even batch-specific process flow sheets are available for verification. We’ve participated in external audits with clients under NDA to support new product launches, regulatory filings, or troubleshooting complex downstream chemistry. Open communication takes precedence over simple box-ticking.
We encourage direct feedback, with a standing policy of field visits or remote troubleshooting from qualified staff, not junior reps. Final users know they get the same technical competence informing every step from synthesis to after-sales support. Our documentation integrates customer case studies—both successes and failures—with the aim of building collective expertise rather than hiding production stumbling blocks.
Every day brings new challenges in chemical innovation—tougher regulatory audits, stricter endpoints for purity, shifting project budgets, and unexpected bottlenecks in synthesis. As a manufacturer, we live these realities alongside our customers. By offering 2,2,2-Trifluoroethylamine Hydrochloride as a rigorously dependable, openly documented, and scalable intermediate, we deliver not only a product, but a foundation enabling discovery and scale-up with fewer unknowns and less risk. The value comes not just from a technically pure compound, but from the people, processes, and culture that stand behind every drum and bottle shipped.
Through continuous investment in process improvement, customer partnership, and environmental stewardship, we commit to more than compliance. We strive to set the standard for reliability and transparency in specialty chemical manufacturing. Trust, traceability, and responsive collaboration allow scientists, engineers, and project managers to reach for new discoveries—unencumbered by mundane, avoidable hurdles in sourcing or quality. For those who depend on certainty and open partnership, our 2,2,2-Trifluoroethylamine Hydrochloride stands ready as more than a reagent—it's a part of your success, shaped as much by experience as by molecular design.
