|
HS Code |
102203 |
| Chemical Name | Myrislignan |
| Molecular Formula | C20H24O6 |
| Molecular Weight | 360.4 g/mol |
| Appearance | White to off-white powder |
| Cas Number | 72932-12-0 |
| Purity | ≥98% |
| Solubility | Soluble in DMSO, ethanol |
| Melting Point | 123-125°C |
| Storage Temperature | 2-8°C |
| Synonyms | Isomyrislignan |
| Source | Myristica fragrans (nutmeg) |
| Usage | Research compound, reference standard |
| Smiles | COC1=C(C=C(C=C1)C2COC3=CC(=C(C=C3O2)O)O)O |
| Inchi Key | MCJURIGAOWQPOR-UHFFFAOYSA-N |
As an accredited Myrislignan factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Myrislignan is packaged in a 1g amber glass vial with a secure screw cap, labeled with product details and safety information. |
| Shipping | Myrislignan is carefully packaged in secure, chemical-resistant containers to ensure stability during transit. It is shipped in accordance with international regulations for safe transport of chemicals. Detailed documentation accompanies each shipment, and temperature controls are applied if required. Delivery tracking is provided for real-time shipment monitoring and timely arrival. |
| Storage | Myrislignan should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of heat or ignition. Keep the container tightly closed and properly labeled. Avoid exposure to moisture and incompatible substances such as strong oxidizing agents. Store at room temperature or as specified in the product’s safety data sheet to maintain stability and prevent degradation. |
Competitive Myrislignan prices that fit your budget—flexible terms and customized quotes for every order.
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Tel: +8615365186327
Email: sales3@ascent-chem.com
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At our chemical plant, each batch of Myrislignan reflects careful attention from raw sourcing through finished crystallization. After years investing in process optimization, we have refined the synthesis of Myrislignan to consistently deliver high-purity material. The difference starts at the sourcing: our lab team selects the right lignan-rich seed stock, taking into account seasonality and regional yield trends. Once extraction begins, technicians monitor the reaction profile at regular intervals, adjusting temperature and solvent ratios based on real-time analysis. This hands-on procedure reduces process deviation and helps retain the molecular integrity of Myrislignan throughout finishing.
Our production lines incorporate advanced crystallization methods, ensuring the resulting Myrislignan forms fine, flowable crystals. During filtration, residue gets removed efficiently, and the resulting material is finished under controlled humidity. Stringent in-house analytical protocols run every batch through GC and HPLC validation; there’s no reliance on outside quality assessment. For routine lots, we routinely hit purity benchmarks above 98%, giving formulators and R&D labs predictable outcomes. In our own formulation shop, we regularly test Myrislignan in real-world use cases, not just on the bench but in scaled pilot runs—ensuring end-users get a product whose physical properties don’t change from bag to bag.
We see a clear contrast between Myrislignan and generic lignans or plant-based extracts. While many market lignan ingredients come as variable brown powders or sticky semi-purified resin, Myrislignan offers clear structure and consistency. It possesses a distinctive white to off-white crystalline appearance with minimal odor. Technicians report ease of incorporation into intermediate chemicals and direct-use applications. Thanks to our method of single-step continuous extraction, we avoid introducing plant tannins or colored by-products that often cause variability or stability issues for users in specialty chemical and pharmaceutical applications.
Comparisons with products like sesamin, pinoresinol, or other related lignans reveal further distinctions. Myrislignan’s molecular backbone hosts a specific methylenedioxy group arrangement that imparts unique solvent compatibility for both polar and nonpolar systems. This is crucial where formulation sterility and ingredient miscibility matter. With sesamin or unrefined lignan isolates, we have noted greater risk of tar formation or unwanted discoloration in high-temperature processing, especially in antioxidant blends and cosmetic applications. After multiple customer lab visits, it’s clear that switching to Myrislignan reduces filtration issues and offers longer shelf stability for sensitive actives.
We manufacture Myrislignan primarily in two principal grades. The standard grade matches customer requirements for fine chemical synthesis and bulk manufacturing. These crystals are sieved to a narrow mesh range and maintain a moisture content below 1.0% by Karl Fischer titration. In addition, we offer a high-specification grade selectively crystallized for pharma R&D or analytical purposes—both always surpassing 98% GC/HPLC purity, as measured on the spot in our factory labs. Color, crystal habit, odor, and any surface adherence are closely monitored, eliminating lot-to-lot surprise for customers requiring repeatable outcomes.
Packaging involves sealed polyethylene bags inside industrial fiber drums. We keep residual solvent below detection limits, relying on vacuum oven drying and inert-gas blanketing before dispatch. Our shipping team understands the risk profile of temperature swings, so batches are sent with temperature indicators inside packaging during summer months. It’s all aimed at preserving the clean crystalline structure from factory to final destination.
Customers turn to Myrislignan for a range of industrial and research applications. In our experience collaborating with formulators, the ingredient gets included as a key intermediate in specialty fine chemicals and as a building block for ongoing pharmaceutical compound development. Our technical partners in labs often use it to probe lignan metabolism; the stable, well-characterized Myrislignan allows precise tracing in metabolic assays and cell culture studies. Formulators who develop antioxidants or emulsifiers draw on Myrislignan as a proven phenolic contributor—one that handles both hydrophobic and hydrophilic phases during processing, while minimizing batch-to-batch surprises.
Several commercial customers have worked with us on continuous scale-up. They report minimal fouling in their feed lines and fewer purification steps versus competitors’ lignan-rich powders or crude resin extracts. This ease of handling speeds up their production cycle and reduces costly maintenance hours. In both pilot runs and day-to-day plant operations, a consistent physical profile—fine, non-cohesive crystal, low bulk density variation—means less technical supervision and greater throughput. Over the years, we’ve also got feedback from analytical services: consistent Myrislignan purity means R&D teams can obtain clean readouts, especially important for method development or compound screening.
Supply disruptions often affect specialty chemicals. Our direct involvement in both sourcing and manufacturing places us in a position to anticipate and address many of these interruptions. Whenever bad weather hits major olive-producing regions—key for many lignan supply chains—we’ve seen global prices spike or product lines get held up. By investing in a diversified feedstock network, including multiple agricultural producers and qualified extraction partners, we maintain a more consistent flow through our plant. Sourcing teams regularly audit fields to assess plant health before extraction season, ensuring only lots with optimal lignan potential enter our production pipeline. This approach shields our customers from volatile pricing and intermittent supply.
Consistency at scale is another challenge that gets talked about less outside the plant floor. Each step, from initial solvent treatment through final crystallization, introduces opportunities for deviation. Minor temperature drifts or feedstock inconsistencies often show up as off-grade product in the final drum. We’ve tackled this by deploying automated in-process analytics—sensors and bench tests at sorting, extraction, and filtration stages. These checks allow rapid correction before a whole lot is lost, slashing waste and rework. By listening to our operators and line engineers, we also update equipment and SOPs in response to evolving on-the-ground realities, not just academic theory.
End users sometimes ask why pure Myrislignan commands a premium over plant lignan concentrates. The answer starts with scale and finishing detail. Extracting clean crystalline Myrislignan from a lignan-rich matrix requires careful stepwise purification and controlled crystallization. On the floor, that means extra solvent recovery, batch testing, and waste stream control. Downstream, users see lighter filtration loads, less batch loss, and a reduced requirement for re-analysis. In high-throughput facilities or in analytical labs, these compounded efficiencies translate to a more predictable bottom line.
We often hear that generic lignan products become a hidden cost center due to unforeseen re-processing, variable physical properties, or inconsistent performance in end applications. By maintaining in-house control of Myrislignan refinement, we help customers reduce these unpredictable expenses. Technical support teams often troubleshoot issues live, collaborating with formulators to adjust process parameters or blend ratios to maximize yield without changing the final product specs. Our real-world role doesn't stop at the loading dock; it extends through to the point where a customer has successfully incorporated our material into their workflow.
Pharmaceutical researchers trust Myrislignan as a key scaffold for novel compound synthesis. The well-defined molecular structure, along with the absence of colored impurities or interfering phenolic groups, adds clarity to both structure-activity studies and upscaling pilot batches. Our in-house team, working with external consultants, has observed that use of Myrislignan helps reduce background noise in high-resolution analytical runs. Direct supplier involvement means analytical teams can request specific batch lots, tailored for unique response in a pharmacological setting.
We recently supported a team scaling their first batch from gram-scale to kilogram via process transfer. Real-time feedback allowed us to adjust drying and micronization stages, keeping the compound within tolerance for solubility and handling. Stakes are high in pharma production lines; slight deviations can stall an entire syntheses campaign or cause regulatory delay. Deep process familiarity and the ability to control every incoming input have let us sidestep these common roadblocks, turning what could be drawn-out troubleshooting into on-the-fly process adaptation.
In specialty flavors and food antioxidant blends, Myrislignan’s clean aroma profile and reliable assay results attract a different set of producers. Large-scale flavor manufacturers need ingredient predictability to maintain regulatory and sensory consistency. Volatile residues or flavor taints in standard lignan extracts risk product rejection at the QA stage, costing both time and material. Myrislignan’s low-odor, white crystalline nature has made it a favored ingredient for high-purity food formulations where sensory impact must remain minimal.
In cosmetics, formulators use Myrislignan for its antioxidant properties and ease of solubilization, compared to darker or phenol-rich analogs. Negative feedback from our direct-consumer partners often focuses on color and texture—variables directly impacted by ingredient purity and physical consistency. Our experience producing and supplying Myrislignan over many years has directly influenced consumer-facing product properties, minimizing off-themed odors or unexpected color shifts in creams, emulsions, and serums.
At the production scale, non-food manufacturers appreciate batch-to-batch predictability and clean handling. Myrislignan moves smoothly through dry blending and wet compounding lines. Our engineering team regularly audits bulk-handling systems with customers, sharing best practices for flow promotion and dust control. The low-dust, non-cohesive nature of the crystal means less line cleaning, improved health and safety compliance, and greater operational uptime for busy plants.
As a direct manufacturer, we document every major step from raw input to shipping. QC reports are available; we support on-site and virtual client audits regularly throughout the year. This open-door approach helps both sides identify and eliminate emerging quality risks in a timely fashion. Working one-on-one with technical teams in both R&D and production, we troubleshoot the root of processing issues right on the plant floor or through remote guidance.
Developing and scaling Myrislignan production has been grounded in hands-on reality, not just paper specifications. In our chemist roundtables, process engineers update our protocols to reflect lessons from routine production and special contract runs. Raw lot-to-lot variability, resin handling at the crystallizer, and solvent recovery steps all undergo ongoing review. If a new use case or scale-up requirement emerges from a customer, our team can supply small pilot lots or make controlled changes and provide feedback on real-world implications for downstream operations.
Sustainability factors into each process review. As byproducts and residual solvents have strict requirements, waste streams get treated and recycled where possible. Our facility has adopted solvent recovery and steam minimization for years, saving both raw input and utility costs. Efforts continue to reduce rinse water and improve solvent loop efficiency at the extraction level. Real-time plant metrics allow us to tweak plant operations and match environmental compliance with leaner, cost-effective production. Remaining gaps often become the launching pad for new internal R&D projects, especially in waste valorization and bio-based solvent use.
Customers with their own environmental standards benefit directly. Clean Myrislignan with high purity and low impurity load translates to lighter downstream treatment, lower solvent use in secondary purification, and less frequent batch disposal. It’s been rewarding to see collaborative R&D turn some of our lignan extraction side streams into valuable co-products rather than landfilled waste. We see this as a long-term project, engaging directly with both supply chain and end-use partners to create win-wins.
Innovation happens by staying in close contact with those who use Myrislignan daily. Direct feedback, whether about a minor particle size change or a need for a larger lot, helps us drive both incremental and transformative process improvements. Real-world challenges—like dusting in automated blenders, material bridging in hoppers, or trace impurity surprises—only get identified and solved through deep manufacturer involvement. By working across technical, supply chain, and customer support teams, improvements are grounded in practice and make a difference on customer production lines tomorrow, not months from now.
Transparency, technical support, and reliability form the backbone of how we bring Myrislignan to customers. Each batch embodies not just specification compliance, but pragmatic adjustments coached by years of problem-solving and continuous operator feedback. This commitment, rooted in our identity as manufacturers, ensures that every drum or bag sent delivers the rigorous, real-world quality that downstream users need for innovation and business growth.
