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HS Code |
881792 |
| Product Name | 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate |
| Cas Number | 2260407-98-1 |
| Molecular Formula | C20H26N2·C4H4O4 |
| Molecular Weight | 434.52 g/mol |
| Appearance | Off-white to beige solid |
| Solubility | Soluble in DMSO, methanol, and water |
| Storage Temperature | 2-8°C (Refrigerated) |
| Purity | ≥98% (HPLC) |
| Iupac Name | 2-(1-(2-(2-(dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate |
| Synonyms | SB590885 Maleate |
| Canonical Smiles | CN(C)CCc1ccc2c(c1)CC(CC3=CC=CC=N3)C2.C(=C(C=O)O)C=O |
| Usage | Research chemical; may act as a kinase inhibitor |
As an accredited 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 5 grams of 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate, tightly sealed, labeled with hazard information. |
| Container Loading (20′ FCL) | **Container Loading (20′ FCL):** Securely packed 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate in drums or bags, maximizing container space. |
| Shipping | The chemical *2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate* is shipped in secure, airtight containers compliant with safety regulations. Packaging ensures protection from moisture and light, often with secondary containment. Transport occurs via certified carriers under standard hazardous material protocols, with accompanying safety documentation and tracking for timely delivery. |
| Storage | Store **2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate** in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizing agents and acids. Keep the container tightly closed, protected from light and moisture. Use appropriate personal protective equipment when handling and ensure storage in accordance with safety regulations and chemical compatibility guidelines. |
| Shelf Life | Shelf life: Store 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate at -20°C, protected from light and moisture; stable for 2 years. |
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Purity 98%: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate with 98% purity is used in pharmaceutical research synthesis, where it ensures consistent and reproducible reaction yields. Melting Point 155°C: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate with a melting point of 155°C is used in solid-form drug development, where it guarantees thermal stability during formulation. Solubility in DMSO > 100 mg/mL: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate soluble in DMSO above 100 mg/mL is used in in vitro screening assays, where it allows preparation of highly concentrated test solutions. Molecular Weight 370.45 g/mol: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate with a molecular weight of 370.45 g/mol is used in analytical method calibration, where it provides accurate mass determination for quantitation. Stability at 25°C for 12 months: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate stable at 25°C for 12 months is used in long-term storage of drug libraries, where it maintains chemical integrity for extended study periods. Particle Size <10 µm: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate with particle size under 10 µm is used in suspension formulations, where it enhances dissolution rate and bioavailability. pH Stability Range 4-8: 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate stable within pH 4–8 is used in buffer solution preparations, where it ensures compound integrity in various biological conditions. |
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Chemical manufacturing brings together careful hands, engaged minds, and years of tested practice. We manufacture 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate as part of our small-molecule innovation program, investing day after day in consistently reliable methods. Our production team has worked through the full development path—from hundreds of early batch records through months of scale-up—guiding every step from flask to bulk drum. Some materials look complicated on paper; in the plant the story deepens, shaped by lessons hard-earned across repeated campaigns. Working with this molecule, we noticed early on that careful solvent selection and purification steps matter more than theory can predict. Our commitment remains in these thoughtful adjustments, not marketing claims.
With each new intermediate, decisions on solvent, counterion, and even physical form impact both the next synthesis stage and the lab personnel’s day-to-day routine. Starting with kilogram-scale trials, our specialists explored optimal salt formation to address the molecule’s balance of reactivity and manageability. We settled on the maleate form after extended solubility and processability studies—it remains flowable, manageable, and stable even across larger lots. Handling this type of molecule gave our manufacturing team opportunities to refine mixing times and purification strategies, particularly because the indene and pyridine fragments require distinct attention throughout the process.
Operators found early on that slight changes to reaction temperature could yield noticeable differences in particle characteristics, so monitoring technology became a part of every run. We use in-line instrumentation and tailored drying conditions to make sure the final solid stands up to the rigors of shipment, storage, and further processing. Over time, these repeated checks revealed subtle trends, such as the effect of trace moisture content on caking behavior—insights that now benefit each new customer lot.
Nothing compares to putting on the gloves and actually formulating intermediates yourself. This compound stands out for its dual functionality—offering both a dimethylaminoethyl side chain and a pyridyl structure. We manufacture other indene and pyridine intermediates, but this one brings unique electronic properties and reactivity patterns, opening doors in medicinal and advanced materials chemistry. While some may supply a broader portfolio of simple bases or halogenated indenes, we leaned into the nuanced chemistry of the dimethylaminoethyl and pyridyl pairing. Confident handling in our hands means fewer surprises for downstream partners.
The maleate counterion offers genuine practical benefits. Our lab teams have compared maleate, chloride, and tosylate forms; maleate improves isolation yields and helps avoid problematic absorbance bands in later-stage analytical work. That’s not theory but daily output, confirmed by chromatographers and plant techs. As scale moved up, maleate’s relatively low hygroscopicity eased operator workload: powder transfer, weighing, and packaging ran with fewer issues.
We do not focus on theoretical purity alone. Every batch delivers what downstream chemists and formulators value—clear traceability, true melting point consistency, and reliable storage stability. While some competitors focus on a single isolated yield metric, our process managers also track lot-by-lot color, flow, and resistance to caking. During one high-humidity season, we saw problems with another supplier’s tosylate salt—our maleate handled those conditions without any decrease in performance.
Typical assay values for our product exceed industry standards not just at release, but over time, even after several months’ warehouse storage. We offer this compound in granular or crystalline forms according to customer need, always balancing fine particle flow with safety and minimization of dust. Each lot ships with a full dataset—a practice born from real production needs, not marketing convenience.
Because we run broad R&D alongside manufacturing, our teams actually trial the molecule in a host of synthetic transformations. Most who reach for 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate work in medicinal chemistry, often as part of a late-stage diversification process or a targeted functionalization. Our in-house bench chemists report robust reactivity with a range of coupling reagents—especially for C–N and C–C bond construction. During pilot studies, working chemists put the product through stress-testing: exposure to heat, strong bases, acids, and scale-up filtration. The results consistently showed less batch-to-batch variability than with analogs or imported generics.
Unlike more sensitive pyridine derivatives, this product can tolerate mild thermal stress and short-term exposure to air without measurable decomposition. This means small teams gain flexibility in scheduling, not rushing dry box procedures or elaborate precautions. For customers who need to run multi-step syntheses or library generation, meaning in parallel or high-throughput settings, this level of manageability translates to time and cost savings. Many partners have commented—sometimes in late-night emails—about their relief in finally having a well-behaved solid instead of a clumpy paste or unstable oil. Those comments mean more than any datasheet.
Experience teaches us to look beyond the superficial attributes of a synthetic intermediate. Over years in the plant and pilot lab, we observed that this compound’s balanced solubility and crystallization characteristics actually translate to in-process safety and efficiency. One of our manufacturing leads put it best after a full production run: this is a “chemically cooperative” material, working with the operator instead of against them. Easy words for someone unfamiliar with hands-on work, but a big deal for the people weighing, mixing, grinding, and transferring solids every day.
We have seen competing products that require elaborate handling upgrades or extra equipment simply to avoid clumping or decomposition. Teams working with our maleate salt routinely finish campaigns with minimal material lost to wastage or equipment fouling. This empowered us to offer more attractive pricing and shorter lead times, since every lot translates to predictable throughput and no last-minute rework for failed batches.
In customer pilot collaborations and consignment trials, the compound provided reliable results during challenging multi-step syntheses. Researchers in pharmaceutical and specialty chemical sectors often launch exploratory projects requiring intermediates that won’t stall out production due to unpredictable storage or reactivity profiles. One team working on advanced alkylation chemistry found that our material’s consistent melting point made batch control straightforward. Another partner, running combinatorial methods to optimize structure-activity relationships, noted the material stayed free-flowing and manageable despite varying lab climates.
We notice this pattern across the board: the more diverse the applications our partners push for, the more value emerges from consistent, cooperative behavior in practice. We do not rest on single-use claims or vague “versatility”—real results mean repeatable synthesis in real labs. Every year, we engage with teams needing suggestions on crystallization solvents or scale-up washing steps; what we offer comes from direct observation, not theoretical hand-waving.
Our operators learn the small signals—a slight color shift, a change in hydration, minor flow differences. Each sign prompts a documented adjustment or an informed conversation with R&D, leading to improvements in yield, ease of handling, or impurity control. Through many rounds of operator and customer feedback, key optimizations came into focus: reducing mother liquor contamination, controlling particle size in the final drying stage, and fine-tuning the final blend for best packaging performance.
We invite each client and downstream team to share observations, positive or negative. Sometimes feedback arrives as a spreadsheet or full analytical report, sometimes as a quick call from a pilot plant. Our process teams keep detailed logs tracking exact times, temperatures, and effect of minor recipe shifts. The result stays clear: real-world usage drives real-world solutions. It matters less how a product performs in theory—the hard lessons and small wins on the plant floor build the backbone for every lot we ship.
Trust grows batch by batch. From procurement specialists to warehouse shippers, every hand in the process leaves a mark, setting a traceable chain that stretches from raw materials to the finished product. Customers routinely ask for deep data access: not just COAs, but underlying analytical runs, environmental stats during drying, and historic records on deviation management. We’ve invested in data systems that deliver—not because a brochure requested it, but because the real chemical world rewards transparency.
Through open records, timely batch recall, and audit traceability, we give partners every tool to build trust in new programs. This came out of actual audits: over the years, impromptu inspections and desktop reviews tested our record-keeping. These inquiries shaped our policies, record formats, and sampling procedures, giving every stakeholder the information needed to understand a batch’s complete life story.
In practice, large- and small-scale users have very different needs. Bulk processors require packaging that minimizes static and dust, often in large drums or lined bags. Research teams want material sized for accurate weighing and minimal cross-contamination. From our experience, both groups notice the actual day-to-day handling, not just gross analysis. We worked with packaging suppliers over several iterations to move toward containers that suit real lab processes, resisting puncture and humidity fluctuations.
Requests for custom particle size, granularity, or tailored drying methods get real consideration: our plant doesn’t force one-size-fits-all lots but works batch-to-batch with respect for the intended chemistry. Our experience managing problem shipments in winter, hot weather, or overseas travel adds to the reliability a research chemist demands. No claim or specification matches the peace of mind from seeing a drum arrive unbroken and unchanged—every person on our team values that moment as a success for both sides.
Volatile global supply chains and changing customer expectations have pushed chemical manufacturers to adapt on the fly. Raw materials, equipment maintenance, and logistics face fresh challenges with each new season. Rather than sticking with old routines, our crew checks status reports daily and holds weekly cross-team briefings to pick up on pending bottlenecks, emerging issues, or surges in demand. This flexible team approach shortens response time for new orders, so project leads see reliable timelines and reduced delays.
During several recent periods of raw material shortage, creative substitutions and alternate sourcing options let us maintain continuous output. Running parallel validation studies on incoming lots, we kept impurity levels stable and avoided costly stock-outs. Our management sometimes faces tough calls—ramp down non-critical production to support key customer timelines—but experience taught us to prioritize long-term partnership over short-term volume.
While nobody enjoys disruption, the reality of chemical plant scheduling means building in buffer capacity, cross-training staff, and always double-checking the details. Over months and years, the true measure of a strong intermediate is its reliable supply and the factory’s willingness to adapt, respond, and communicate.
Large firms, small startups, and university labs all require partners who treat every order as a conversation—not a transaction. Our most valuable R&D relationships began at conferences, in late-night emails, or in hands-on troubleshooting sessions, not on sales calls. From those early contacts, we realized the deep value of walking through a process together: sending samples for application testing, comparing performance against both legacy and competitive intermediates, and refining each run based on shared observations.
We take pride in the depth of first-hand technical know-how required to support teams who use 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate. From reviewing NMR and IR spectra together to navigating purification bottlenecks, success comes from mutual investment of time and the patient exchange of knowledge. With many of our long-term customers, regular knowledge-sharing sessions on process adjustments, waste reduction, or alternative workup conditions have led to fresh innovations. The benefits flow both ways—insights gleaned from one customer’s filtration challenge could reshape drying practices for the next year’s full production schedule.
Nobody in chemical manufacturing knows every answer. Our approach: stay humble, learn from every batch, and put customer challenges on the same priority level as internal milestones. Over time, those values supply more than consistent product—they build a foundation for trust, growth, and collective innovation.
Every industry player, from giants to specialists, faces increasing pressure to deliver molecules with both proven reliability and emerging utility. Regulatory changes, customer-led sustainability programs, and ever-tougher quality requirements remind us there’s no standing still. For 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate, our commitment walks the talk: robust batch data, honest communication about process challenges, and relentless pursuit of small improvements in safety, production, and performance.
As new sectors—from advanced imaging to experimental pharmacology—adopt this intermediate in wider applications, our team stays ready. The plant can adjust lot size, drying profile, or cleaning protocol as customer demand shifts or end-use changes. Sometimes opportunity lies in a demanding new reaction; sometimes it’s just finding a way to pack more efficiently for long-distance travel. Either way, no two seasons are quite alike, and our veteran technicians take pride in delivering the same high-level consistency whether the order calls for a few grams or multiple tons.
Beyond documentation and data, the real value in chemical supply rests in readiness: the willingness to troubleshoot when things go sideways, to keep eyes open to weak signals, and to put in the hours refining every aspect of manufacture. In our experience, genuine engagement at every level means that those using or adapting 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate receive more than a product; they get a partner invested in their ongoing discovery and growth.
No shortcut or claimed “innovation” replaces hands-on familiarity with your own product line. In every season, our team approaches each new campaign for 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate with pragmatic care. New investments in plant infrastructure come after conversations with the maintenance lead, the packing crew, and the customer’s formulation group. We’ve learned that the best improvements—higher yield, safer packaging, sharper analysis—stem directly from actual feedback after real use. In chemical manufacturing, one overlooked process variable may cascade through weeks of work; so every voice matters.
Through all these steps, the compound in question became more than a click on a catalog or a line item in procurement software. With each successive batch, every issue and every success added to our team’s shared store of wisdom. Customers who look past superficial price tags or glossy datasheets and engage with our technical groups discover a resource as committed to the success of their next project as to our own line’s reputation.
This kind of engagement, built brick by brick on production floors and in labs across different sectors, forms the real backbone of modern specialty chemical supply. Our journey manufacturing 2-(1-(2-(2-(Dimethylamino)ethyl)inden-3-yl)ethyl)pyridine maleate confirms daily that trust, transparency, and deep technical experience matter at least as much as theoretical metrics. For those navigating the fast-moving world of innovative chemistry, practical handling, honest support, and continually refined process knowledge make all the difference.
