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All Right Reserved
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HS Code |
410769 |
| Chemical Name | Icarisid I |
| Cas Number | 61276-17-3 |
| Molecular Formula | C21H20O10 |
| Molar Mass | 432.38 g/mol |
| Appearance | Yellow powder |
| Solubility | Slightly soluble in water, soluble in ethanol and DMSO |
| Source | Epimedium species |
| Pubchem Cid | 5318993 |
| Iupac Name | 5,7-Dihydroxy-2-(4-hydroxyphenyl)-8-(β-D-glucopyranosyloxy)-4H-1-benzopyran-4-one |
| Chemical Class | Flavonoid glycoside |
| Storage Conditions | Store at -20°C, protected from light |
As an accredited Icarisid I factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Icarisid I is packaged in a 10 mg amber glass vial with a secure screw cap, labeled with product details and safety information. |
| Shipping | Icarisid I is shipped in tightly sealed containers to prevent moisture and light exposure. It is handled as a chemical substance, following standard hazardous material protocols. Packaging complies with international safety regulations, and the product is typically transported at ambient temperature, unless otherwise specified by the manufacturer or regulatory guidelines. |
| Storage | Icarisid I should be stored in a tightly sealed container, protected from light and moisture. It is best kept at a cool, dry place, preferably at 2–8°C (refrigerator temperature). Ensure proper labeling and avoid exposure to heat or sources of ignition. Follow standard laboratory safety protocols and consult the material safety data sheet (MSDS) for specific handling and storage instructions. |
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Purity 98%: Icarisid I Purity 98% is used in pharmaceutical research, where it enables high-precision bioassay results. Melting Point 285°C: Icarisid I Melting Point 285°C is used in thermal stability testing, where it ensures reliable performance under high-temperature conditions. Particle Size 10 μm: Icarisid I Particle Size 10 μm is used in nanoformulation processes, where it facilitates uniform dispersion in suspension systems. UV Absorbance λmax 296 nm: Icarisid I UV Absorbance λmax 296 nm is used in analytical method development, where it provides accurate quantification via spectrophotometry. Solubility in DMSO 50 mg/mL: Icarisid I Solubility in DMSO 50 mg/mL is used in medicinal chemistry screening, where it improves compound delivery in cellular assays. Stability at pH 7.4: Icarisid I Stability at pH 7.4 is used in buffer-based biological experiments, where it maintains structural integrity during incubation. HPLC Assay ≥99%: Icarisid I HPLC Assay ≥99% is used in quality control protocols, where it guarantees batch-to-batch consistency. Optical Rotation +23°: Icarisid I Optical Rotation +23° is used in stereochemistry studies, where it confirms enantiomeric purity for chiral analysis. Moisture Content ≤1%: Icarisid I Moisture Content ≤1% is used in solid dosage formulation, where it prevents degradation and ensures product stability. Storage Temperature -20°C: Icarisid I Storage Temperature -20°C is used in long-term biochemical storage, where it preserves bioactivity for extended periods. |
Competitive Icarisid I prices that fit your budget—flexible terms and customized quotes for every order.
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For years, our plant engineers and technical staff have produced bioactive flavonoids under rigorous controls, and Icarisid I stands out in our production line for both purity and consistency batch after batch. From our pilot vessels to distillation columns, we keep close tabs on each critical stage: temperature, solvent ratios, extraction times, and filtration methods. Our workers know that even minor adjustments in reaction conditions shift product composition, so we’ve built every process around achieving a clear, high-purity compound. Those extra hours our quality team puts in during crystallization or drying translate into less need for post-synthesis rework and a naturally stable profile, which saves both time and cost for formulators downstream.
Raw material sourcing plays a huge role in where product lines ultimately go, so we spend time evaluating phenolic content, harvest periods, and traceability for all plant extracts. Once incoming material meets spec, our chemists start each reaction aiming for high yield and an impurity profile that’s both predictable and easy to monitor. Most industry players use similar extraction steps, but what differentiates Icarisid I results from other factory crops lies in the practical details. For the customer, this means no unpredictable color shifts and no drifting assay values, even with multi-ton orders. Reliability starts at the drum, not in sales brochures.
On our shop floor, “Icarisid I” often refers to a batch identifier, but the term covers a compound with a clear, repeatable HPLC fingerprint, a sharp melting point, and a defined isomer ratio. Every lot we release shows, under ultraviolet detection, a high-intensity, single-peak response at the expected retention time—no wandering substances bleeding into the analytical window. Our technicians routinely check moisture content and bulk density to spot caking risks and preserve flowability for years—not just months.
Customers expect less downtime, fewer filtration headaches, and easier scaling during large-batch production. Having spent thousands of hours, our process engineers modified multiple steps in our extraction and crystallization protocols to get solvent traces as low as modern equipment allows. Early on, batches suffered yield loss from seasonal changes in water content or temperature swings. Now, robust process controls make sure that no matter the outdoor climate, the product maintains steady performance.
Our operators and chemists care about more than certificates or standard paper trails; we track lot genealogy internally, running comprehensive tests well before finished product ever moves to packing. Stability chambers hum year-round under real storage conditions—seeing how the compound ages in sunlight, humidity, and temperature clusters well above typical warehouse storage gives our blend managers confidence in shelf-life declarations.
Over the years, we’ve seen many products in the same class drift outside spec after just a few months. Most errors trace back not to raw material, but to small lapses in process control—something as common as leaving a filtration pump running thirty minutes too long can add unwanted byproducts. Our plant’s “control room mentality” keeps technicians alert to minute details, not only checking analytical data but rechecking work orders and calibrations each shift. This routine vigilance delivers a product profile dependable enough for volume users to plan production windows without surprises.
Icarisid I never leaves our facility unless final samples pass a full suite of tests: foreign matter exclusion, color and ash standards, and—most importantly—a validated assay that consistently reaches over 98 percent purity at minimum, supported by mass spectral and chromatographic overlays. Every new lot starts from a validated cleaning and charging procedure, so cross-contamination risks stay minimal. In scale-up, repeat customers frequently comment that our processed compound dissolves smoothly and predictably—a direct result of years spent tuning crystallization temperatures and drying cycles, not just focusing on paperwork.
Unlike commodity chemicals built purely for bulk uses, Icarisid I attracts formulation interest because lab teams recognize its unique bioactive signature. Some clients use it in research on antioxidant or signaling pathways, others target regulatory responses in cell culture models. Years ago, we worked with university teams to develop streamlined isolation protocols, so their researchers spent less grant money troubleshooting variable purity. Today, reference labs routinely verify our lots against their own standards, further confirming that our lot-to-lot drift remains among the lowest in the sector.
Many commercial flavonoids on the market get blended or diluted at source, which leads to inconsistent experimental results. From a manufacturing point of view, maintaining a single, stable product model means biologists and analytical labs report cleaner, more reproducible data—a point confirmed in feedback forms over multiple academic cycles. Our R&D departments keep an eye on published breakthroughs, so when an emerging lab technique requires adaptation of particle size or dissolution rate, production teams act quickly, testing new grind profiles or drying procedures to stay ahead.
We seldom hear about safety complaints or unexpected handling challenges. That doesn’t come by chance. Instead, we designed packing and sealing stages with plant operators who understand real-world movement and storage logistics. Our product moves in sealed, food-grade lining inside heavy-duty drums, keeping both product and downstream equipment free from fine dust or humidity exposure. Over years of scale-up trials, our safety teams documented low odor and no corrosive risk for normal industrial handling.
Direct feedback tells us that our Icarisid I product pours easily, remains free-flowing under a wide range of climate conditions, and leaves no residue build-up in feed hoppers. Maintenance crews at contract blending plants appreciate that the product works for weeks on end without clumping or sticking, even in less-than-ideal warehouse setups. End-users, whether they're in pharmaceutical research or process formulation, have little difficulty measuring accurate dosing, which makes training new staff faster and reduces operational error in blending setups.
In many ways, it’s the little choices in our facility that keep Icarisid I standing apart. Where some competitors rely on bulk filtration or cut corners on final drying, our team opted for high-efficiency filtration equipment and tailored solvent evaporation sequences. This means that what ends up in the drum meets a tighter specification—fewer foreign particles, lower volatile solvent content, and a stable color profile. Our laboratory teams monitor for degradation products daily, and we logged fewer than 0.2 percent off-spec incidents last year—much lower than the wider industry trend.
Another common issue from other makers stems from heavy blending or repackaging downstream, which leads to problems with solubility and scattered results in chromatography. We steer clear of this pitfall by retaining direct control over all finishing steps, refusing to outsource any critical purification or packing actions. As a result, every batch carries our signature and quality mark, and the traceability runs from harvest through packing—no break in stewardship. Research labs tell us their test results stay more reproducible and that they see less noise in signal-related studies using our product than with generic samples from distant trading houses.
From our earliest test runs, we knew batch-to-batch verification would form the backbone of our business. We run full-lot traceability supported by both in-house reference libraries and certified external laboratories. Purity figures, critical for experimental reproducibility, undergo dual-method confirmation: HPLC with diode array and MS overlays. In the last five years, our deviation logs show less than 1 in 2000 lots falling below published spec.
Quality assurance teams keep daily logs and audit trails, catching rare exceptions before product hits storage. These logs document everything from reactor entry temperatures to solvent turnover times, ensuring every variable gets captured for continuous improvement. We’ve adjusted key process controls based on five years of root cause analysis, narrowing in on those tweaks that reduce impurity risks or optimize yield in a way that benefits every downstream user.
Long-term clients often compare their side-by-side experiences between our Icarisid I and other catalog samples. The two differences they point out most: no haze or insolubles in wet dissolution, and less variation across storage seasons. Many downstream process operators rely on that stability for continuous production, since it makes ingredient forecasting, blending, and final product quality more predictable and cost-effective.
Researchers and manufacturers bring Icarisid I into a wide range of projects: cell biology, nutra-ceutical development, plant signaling studies, and more. Bioactivity trends move fast—one year’s antioxidant research quickly evolves, pointing toward new regulatory mechanisms or health applications. Whenever formulation teams encounter new requirements, we collaborate closely to adapt grind size or packaging to the realities of their project.
From our perspective as the manufacturer, usable chemical purity ranks above theoretical maximum yield, since the market always values reliability and reproducibility over flashy numbers. Our technical support team works beside customers to troubleshoot not only product-specific questions but also to optimize blending and handling protocols. We help customers tackle new shelf-life studies, solvent compatibility tests, or scale-up assessments, putting in extra effort to document and share the results so the whole sector can benefit.
Manufacturers in fast-moving industries frequently encounter regulatory adjustments or market-driven demand spikes. To keep up, we invest in secure, scalable production lines and maintain a substantial raw material inventory, allowing quick adaptation to order size changes or custom specification requests. By focusing on the core needs of advanced labs and industrial processors alike, we’ve built a product not reliant on short-term trends, but rather on stable, year-over-year technical performance.
We know from experience that no chemistry line remains static. Unexpected variables—raw material change, equipment age, weather patterns—shape every production season. Our continuous improvement teams conduct monthly reviews, auditing everything from waste streams to yield optimization, not simply responding but anticipating risks, whether in packaging, storage, or outbound quality checks.
Every plant manager learns, often through the pain of a failed batch, that system-level thinking keeps factories running at top form. We stay ahead of process bottlenecks by comparing last year’s mistake records, spotting seasonal periodicity in certain outcomes, and running tightly focused staff training based on real incidents. Our corrective action plans go beyond surface fixes, addressing root causes and finding new solutions, such as adjusting crystal seeding points or changing warehouse humidity standards to improve flow characteristics in finished batches.
Improvements stick because we include everyone—from lab analysts to packaging operators—in key refinement decisions. When downtime increases or issue reports spike, plant supervisors go right to the source, soliciting hands-on feedback. The ideas that rise from real work—like shifting drying times by just twenty minutes for a more stable product, or re-sequencing packaging under certain humidity levels—deliver the kind of constant marginal gains that drive long-term industry leadership.
Rising input costs and regulatory changes combine to challenge every manufacturer in the specialty chemical sector. By keeping raw material relationships close and investing in high-reliability equipment, we manage to hold costs steady, maintaining price stability for repeat customers. While some suppliers chase cost by shifting to lower-grade inputs, we found more value in fine-tuning extraction solvents, recycling heat for drying, and automating critical system checkpoints. These investments reduce downtime and waste, which in turn brings cost-per-kilo below many global averages for comparable grades.
We monitor commodity markets, not just as a reaction to volatility but as a way to anticipate what product lines will stay sustainable. Icarisid I isn’t a one-season star; its utility in research and industry gives it a role even in market downturns. Stability—both in quality and in price—means customers know what to expect, and their feedback shapes our plans for every process update. By owning every step from extraction to packing, we maintain product quality under direct oversight, never letting intermediary cuts or supply chain dilution undercut value.
Working directly at the source grants a unique perspective. We see firsthand how the right batch of Icarisid I keeps a month-long research project on track or prevents a critical production run from stalling out. Our processing teams take pride in catching details—small as they might seem—that add up to a better performing product for every customer.
The journey from raw botanical to the finished compound takes careful coordination, constant technical vigilance, and a commitment to transparency. Each time we release a lot, it reflects hundreds of hours from our full team, from material buyers to shipping clerks. Feedback from customers, big and small, keeps us honest and drives us to keep improving, batch after batch, year after year. Icarisid I represents more than a simple chemical—it’s the result of dedication, hands-on know-how, and a manufacturing culture that puts performance first.
