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HS Code |
597021 |
| Product Name | 2-Pyridinepropanimidamide, hydrochloride (1:1) |
| Cas Number | 36478-67-6 |
| Molecular Formula | C8H12N3Cl |
| Molecular Weight | 185.66 g/mol |
| Ec Number | 609-995-6 |
| Iupac Name | 2-pyridinepropanimidamide hydrochloride |
| Appearance | White to off-white solid |
| Solubility | Soluble in water |
| Storage Condition | Store at room temperature, keep container tightly closed |
| Synonyms | 2-Pyridinylpropionamidine hydrochloride |
| Inchikey | JGTAZMMOSAFRIE-UHFFFAOYSA-N |
| Canonical Smiles | C1=CC=NC(=C1)CC(=N)N.Cl |
As an accredited 2-Pyridinepropanimidamide, hydrochloride (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The product is supplied in a 25-gram amber glass bottle, sealed with a tamper-evident screw cap and labeled clearly with hazard warnings. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 2-Pyridinepropanimidamide, hydrochloride (1:1): Securely packed, moisture-protected, labeled drums, maximizing space, compliant with chemical shipping regulations. |
| Shipping | **Shipping Description:** 2-Pyridinepropanimidamide, hydrochloride (1:1) is shipped in tightly sealed containers to protect from moisture and light. It is typically transported at ambient temperature unless otherwise specified. All shipments comply with relevant chemical safety regulations, including proper labeling. Handle with appropriate personal protective equipment upon receipt. |
| Storage | 2-Pyridinepropanimidamide, hydrochloride (1:1) should be stored in a tightly sealed container, protected from light and moisture. Keep the compound at room temperature, ideally between 15–25°C (59–77°F), in a dry, well-ventilated area away from incompatible materials such as strong oxidizers. Ensure the storage area is clearly labeled and access is restricted to trained personnel. |
| Shelf Life | 2-Pyridinepropanimidamide, hydrochloride (1:1) has a typical shelf life of 2 years when stored in a cool, dry place. |
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Purity 98%: 2-Pyridinepropanimidamide, hydrochloride (1:1) with purity 98% is used in pharmaceutical synthesis, where high purity ensures reliable yield and reproducibility. Molecular weight 186.65 g/mol: 2-Pyridinepropanimidamide, hydrochloride (1:1) with molecular weight 186.65 g/mol is used in structure-activity relationship studies, where precise molar calculations enhance analytical accuracy. Melting point 150-153°C: 2-Pyridinepropanimidamide, hydrochloride (1:1) with a melting point of 150-153°C is used in solid-state formulation development, where thermal stability supports process scalability. Water solubility 50 mg/mL: 2-Pyridinepropanimidamide, hydrochloride (1:1) with water solubility of 50 mg/mL is used in biochemical assays, where high solubility improves solution preparation and bioavailability. HPLC grade: 2-Pyridinepropanimidamide, hydrochloride (1:1) HPLC grade is used in analytical method validation, where chemical purity minimizes background interference. Stability at 25°C: 2-Pyridinepropanimidamide, hydrochloride (1:1) stable at 25°C is used in long-term storage studies, where stability ensures consistent compound integrity over time. Particle size <10 µm: 2-Pyridinepropanimidamide, hydrochloride (1:1) with particle size less than 10 µm is used in suspension formulations, where fine particle distribution enhances homogeneity and dissolution rates. pH 5-6 (1% solution): 2-Pyridinepropanimidamide, hydrochloride (1:1) with a pH of 5-6 in 1% solution is used in injectable formulation design, where optimal pH maintains product compatibility with biological systems. Residual solvent <0.5%: 2-Pyridinepropanimidamide, hydrochloride (1:1) with residual solvent content less than 0.5% is used in cGMP manufacturing, where low impurity levels meet regulatory requirements. Light sensitivity: 2-Pyridinepropanimidamide, hydrochloride (1:1) with low light sensitivity is used in open-lab storage conditions, where decreased photodegradation increases product shelf life. |
Competitive 2-Pyridinepropanimidamide, hydrochloride (1:1) prices that fit your budget—flexible terms and customized quotes for every order.
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Working in chemical manufacturing, you develop a close relationship with the molecules that pass through your plant every day. Among these, 2-Pyridinepropanimidamide, hydrochloride (1:1), stands out for us by how consistently it meets the demands of both research and industrial settings. We’ve followed its journey from the first reaction flask to the point where it leaves our facility, checked and double-checked to ensure tight compliance with the specs needed for successful formulation and discovery work. Our goal is not just to fill an order, but to support those who rely on our products with a level of transparency and reliability that comes only from direct manufacturing control.
On the production side, quality starts with raw selection. For 2-Pyridinepropanimidamide, hydrochloride, we rely only on high-purity starting materials with COA-verified content. From charge through to the final crystallization, each batch is sampled to watch for side products and trace impurities. HPLC and NMR ensure the main fraction holds at least 99% area purity, a number we have achieved repeatedly across multiple scale-ups. The crystalline nature of the hydrochloride salt aids in filtration and drying, and we usually keep control of the particle size below 200 microns for rapid dissolution.
Moisture content often forms a silent threat to shelf-stability, so we oven-dry the final product under vacuum, hit it with Karl Fischer titration, and only release batches with less than 0.5% water. Color and odor tell their own story; any off-white or yellow cast would get caught long before packing. After years of process optimization, most of our batches hit a clean white, fine powder with minimal odor—far beyond the minimum regulatory requirements. Simple details, but they matter down the line for anyone formulating sensitive assays or analytical methods. We avoid any fillers, stabilizers, or anti-caking agents. It’s pure substance, nothing else, all the way through.
Researchers in medicinal chemistry and pharmacology keep coming back for this specific grade of 2-Pyridinepropanimidamide, hydrochloride. In their own words, the key draws include its role as an intermediate for generating substituted pyridines, as well as for exploration of imidamide-containing ligands. The hydrochloride form, which we produce, beats the free base for several reasons: it dissolves better in aqueous and polar media, remains stable over time, and does not degrade or discolor under common storage conditions.
Several labs have pointed out process improvements after switching to our batches. In fragment-based ligand design, the consistent high-purity profile means fewer side peaks in their NMR spectra and LC-MS reads. The hydrochloride form makes up for the free base’s tendency to pick up moisture and degrade, especially under open-bench conditions. For peptide and organic synthesis workflows, the fine powder form flows easily, with no clumping or hard-packing in dispensers—a detail traced directly to our fine-tuned drying and milling steps.
With our internal QC running stability studies past the standard three-month window, users have enjoyed extended shelf-life compared to off-brand material with variable chloride content. We receive requests from those performing high-throughput screens who want guarantee of clean dissolution and repeatable mixing—concerns we meet by keeping handling simple and particle size uniform. Direct manufacturer-to-lab shipments cut down on transit times, which also supports product freshness and lot reproducibility. While we’ve fielded custom particle size and alternative salt requests, the (1:1) hydrochloride format continues to draw the most orders for these usage scenarios.
Compared with non-hydrochloride versions or blends cut with non-reactive bulking agents, 2-Pyridinepropanimidamide, hydrochloride (1:1) earns strong marks for handling and downstream performance. Over the years, we’ve seen customers shift away from the free base and alternative salt forms—like sulfate or phosphate—because these alternatives bring batch-to-batch variability, harder handling, and storage headaches. The hydrochloride version keeps the molecule protonated, locks out hydrolysis, and remains easy to weigh and dispense without exposure risks tied to dust or degradation.
We’ve run side-by-side process trials with competing grades, including technical-grade and distillation byproducts sourced from outside the country, and the margin on yield, dissolution, and chromatographic cleanliness always favors the in-house, high-purity batch. This is reflected in the rate of reorder: nearly all buyers of the hydrochloride salt return for multiple lots over time, which tells us the solution we’re shipping out matches the problem being faced in the R&D trenches. Bridge that connection, and you save headaches all around—there’s little appetite among chemists or process techs for unexplained outliers or double-checking spurious assay peaks linked to a poorly-characterized input.
Lab chemists often need multi-gram to kilogram quantities, and scale presents its own challenges. We make the bulk of our product using multipurpose glass and steel reactors, never the single-use, disposable equipment sometimes used by lower-tier lot producers. This means each batch sees full pilot-level monitoring of pH, temperature, and reaction endpoint. We avoid aluminum or iron-catalyzed byproducts that have caused headaches in analytical and synthetic settings.
End-users—especially in the pharmaceutical and agrochemical industries—tell us lot documentation and authentication carry as much weight as the product itself. We provide not just the standard certificate of analysis but also share full trace impurity profiles, including LC and GC overlays and wet chemistry logs. For some large buyers, we have provided full access to batch logs during their own audits. This level of documentation becomes possible only for genuine manufacturers—not traders—because the necessary data only travels with product that never leaves your control from synthesis to shipment.
On the shipping and storage end, 2-Pyridinepropanimidamide, hydrochloride is much less sensitive than free base forms, but protection against moisture and cross-contamination remains vital. We seal each batch in double-lined, chemically inert LDPE bags, then shield further using rigid, impact-proof HDPE drums for batch shipments. Labels include full lot and date coding, all tied back to raw material lots. These steps support regulatory compliance as well as the trust buyers place in our quality consistency.
Some stories that come up again and again in this business revolve around impurities and uncertain country of origin. Intermediates brought in from exporters or non-manufacturer suppliers have led to headaches—from particle-size clumping to unwelcome trace metals in finished products. Buyers who received third-party goods often came back after struggling with dissolution problems, loss of reactivity, or ghost peaks in HPLC and GC-MS. These issues cause not just wasted batches, but can hold up full project timelines. In drug development, a single unreliable bottle sometimes means missed regulatory windows and the need to repeat whole process validation runs.
We’ve addressed these issues head-on by tightening our supplier relationships, limiting material input variability, and offering full transparency through batch traceability. All starting materials for 2-Pyridinepropanimidamide, hydrochloride are sourced through direct, long-term agreements with vetted upstream producers. We never substitute feedstock or switch supply outside of notification and permission from regular buyers. Incoming materials are screened in-house for identity, moisture, and residue solvent content—a protocol honed by hard experience when off-spec goods caused delays, even loss claims. Maintaining consistent final product quality means staying vigilant across all steps, and investing in quality oversight at every checkpoint.
We have seen an increase in requests surrounding trackability, documentation, and proof of regulatory compliance for 2-Pyridinepropanimidamide, hydrochloride in the last few years. Regulatory agencies focus heavily on both product provenance and process transparency. We register every batch produced in line with both domestic and international standards. All major environmental, health, and safety rules, including those indexed by REACH and GHS, guide our work. Our finished salt undergoes careful testing for residual solvents, heavy metals, and nitrogenous byproducts to avoid any downstream contamination that could show up on final bulk testing or quality audits.
Environmental stewardship sits on our agenda as much as end-user safety. Our handling and waste streams, from synthesis through packaging, limit release of unreacted amines and acidic byproducts and keep exposure risks to operators at a minimum. We recover and neutralize any reactive residues before discharge, and keep up with developments in greener processing. These steps might not always make it into finished product specs, but they protect our team and community and reduce batch rejection rates down the line.
Every single unit that leaves our plant meets required labeling, lot control, and hazard communication standards. We spend extra time making sure critical control points are covered: verifying each kilogram batch, confirming closure integrity, and running re-tests for shelf-life extension. These steps, while labor-intensive, result in a product record that allows buyers to pass audits and regulatory filings at the first attempt—a tangible benefit rarely captured in technical data sheets.
The reality for any specialty chemical manufacturer is that the product’s use case keeps evolving. As buyers push the limits of automated synthesis, analytical sensitivity, and batch process scaling, we need to adapt our production methods accordingly. Over the years, customer feedback has shaped our process in practical ways—requests for lower chloride background, finer material for easier automated dissolution, and tighter moisture spec for air-sensitive research setups have each sharpened the way we make and handle 2-Pyridinepropanimidamide, hydrochloride.
Some production tweaks, like adding extra filtration or switching milling techniques, come straight from talking to end-users facing real-world bottlenecks. We rolled out extra vacuum drying protocols after a major biotech partner demonstrated trace water shifted their NMR baselines. Later, we added antistatic bagging materials when peptides formulated with this hydrochloride salt saw clumping during high humidity months—a tip picked up during customer site visits. These small changes made day-to-day handling easier for countless downstream users, turning an average-grade input into a process-friendly option that simplifies rather than complicates lab work.
Direct feedback has also guided our packaging evolution. Multiple users in scale-up settings ran into issues with hardpacking and bridging in bulk drums, so we returned to the drawing board with specialized anti-bridging inserts for shipment. In this business, pride comes from knowing that every problem raised by a practical user finds a solution rooted in shared experience, not generic templates or one-size-fits-all answers.
As novel targets and disease pathways emerge, the need for dependable and well-characterized intermediates like 2-Pyridinepropanimidamide, hydrochloride grows. We’ve supported projects ranging from academic explorations of imidamide-based catalysis to full-scale API route development. In several published works, our lots have supported initial SAR screening, final lead synthesis, and in some cases, provided the foundation for intellectual property filings.
Students, postdocs, and senior researchers often call out the difference a consistent, clean intermediate makes. Fewer delays, fewer reruns, and more time spent advancing new molecules instead of chasing artifact peaks or unexplained reactivity losses. The impact of a high-purity primary salt visible at every stage—reagent creation, pilot-batch synthesis, and manufacture up to kilogram quantities for extended studies.
We continue to support this forward motion not only by keeping the product available, but also by sharing application notes, detailed batch analytics, and availability for tech support. As new areas of discovery start to demand custom or scaled variations, we keep capacity set aside for such innovation-driven requests. This steady, responsive engagement keeps both us and the chemical community moving forward together.
Years of hands-on production and partnership with demanding end users form the backdrop to every order for 2-Pyridinepropanimidamide, hydrochloride (1:1). As standards rise and applications grow more exacting, the value in this compound isn’t just what’s in the drum, but what sits behind it: process insight, transparent dialogue, and a reputation built on thousands of successful syntheses and scale-ups. The challenges faced today are rarely the same as those from a decade ago, but with open ears and a willingness to adapt, the solutions offered can keep pace.
Rather than resting on any past claims or data sheets, we watch the results from each batch, hear back from every new application, and put those lessons right back into production—one run at a time. The reliability of 2-Pyridinepropanimidamide, hydrochloride, as made by an engaged manufacturer, rests on a foundation of process rigor and ongoing investment in improvement. For every lot leaving the plant, that same principle drives quality, trust, and the chemistry that follows.
