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HS Code |
394034 |
| Chemical Name | 3-Methoxy Apiin |
| Molecular Formula | C28H30O15 |
| Molar Mass | 606.53 g/mol |
| Iupac Name | 5,7-Dihydroxy-2-(4-hydroxy-3-methoxyphenyl)-4H-1-benzopyran-4-one 7-O-(6-O-apiofuranosyl-β-D-glucopyranoside) |
| Cas Number | 548-38-9 |
| Appearance | Powder (expected) |
| Solubility | Soluble in water and methanol |
| Source | Plant-derived flavonoid glycoside |
| Storage Conditions | Store at −20°C in a dry place |
| Purity | Typically ≥98% (depending on supplier) |
| Synonyms | Apiin-3-methyl ether |
As an accredited 3-Methoxy Apiin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 3-Methoxy Apiin, 100 mg: Packaged in a sealed amber glass vial with tamper-evident cap, clearly labeled for laboratory use. |
| Shipping | 3-Methoxy Apiin is shipped in secure, tightly sealed containers to prevent contamination and degradation. The product is protected from light, moisture, extreme temperatures, and physical damage. All shipments comply with relevant chemical safety regulations, and detailed documentation accompanies each package to ensure safe and traceable delivery. |
| Storage | 3-Methoxy Apiin should be stored in a tightly sealed container, protected from light and moisture. It is best kept at a temperature of 2–8°C in a dry, well-ventilated area, away from incompatible substances such as strong oxidizing agents. Proper labeling and adherence to standard laboratory storage protocols are recommended to maintain its stability and prevent degradation. |
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Purity 98%: 3-Methoxy Apiin with Purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high reaction yield and fewer impurities in final products. Molecular Weight 596.52 g/mol: 3-Methoxy Apiin with Molecular Weight 596.52 g/mol is used in bioactive compound studies, where accurate dosing and molecular interactions are facilitated. Melting Point 248°C: 3-Methoxy Apiin with Melting Point 248°C is used in solid-state formulation development, where thermal stability during processing is achieved. Aqueous Solubility 0.5 mg/mL: 3-Methoxy Apiin with Aqueous Solubility 0.5 mg/mL is used in in vitro assay preparation, where consistent compound dissolution is required for reproducible results. Stability Temperature 40°C: 3-Methoxy Apiin with Stability Temperature 40°C is used in accelerated stability studies, where prolonged shelf-life under stress conditions is validated. Particle Size D90 < 50 μm: 3-Methoxy Apiin with Particle Size D90 < 50 μm is used in tablet formulation processes, where homogeneous mixing and uniformity are optimized. Viscosity Grade Low: 3-Methoxy Apiin with Low Viscosity Grade is used in injectable solution development, where ease of administration and rapid absorption are ensured. Optical Purity >99%: 3-Methoxy Apiin with Optical Purity >99% is used in chiral separation research, where precise enantiomeric analysis is essential for activity profiling. UV Absorbance Max 256 nm: 3-Methoxy Apiin with UV Absorbance Max 256 nm is used in analytical quantification methods, where sensitive detection and monitoring are enabled. Assay (HPLC) 99%: 3-Methoxy Apiin with Assay (HPLC) 99% is used in reference standard preparation, where high analytical accuracy and confidence in results are provided. |
Competitive 3-Methoxy Apiin prices that fit your budget—flexible terms and customized quotes for every order.
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Operating as a chemical manufacturer often means returning to the basics—relying on hard-earned manufacturing expertise, direct feedback from our process engineers, and the unglamorous reality of extraction, purification, and strict quality control. 3-Methoxy Apiin stands out in this landscape of plant-derived specialty chemicals, not because it looks impressive on a datasheet, but because of how it responds, how it interacts with compounds in the real world, and what it brings to the hands of research chemists, product formulators, and production managers.
Our production starts from botanical raw material, often sourced from specific plants in the Apiaceae family. A reliable batch of raw material is never guaranteed; plant metabolites fluctuate with climate, soil, and growing conditions. Our approach to extracting 3-Methoxy Apiin targets consistency in yield and purity, working hard to minimize seasonal variation. Final isolation relies on a careful combination of solvent extraction, column chromatography, and controlled crystallization. We invest more time in monitoring each shift than in glossy marketing—because if a column bed drifts out of spec, purity tanks. Our product typically yields above 97% purity—because the trace flavonoids that co-elute can alter intended research outcomes or change the stability in your final formulation.
Teams in both R&D and quality control spend hours day-to-day running HPLC, mass spectrometry, and NMR, ensuring batches do not vary in glycosylation level or show unexpected side-products. Our lead process chemists often say, “It’s not about hitting just one NMR spectrum, it’s about reliably getting the same result a hundred times.” That goes double for 3-Methoxy Apiin, which, with its extra methoxy group compared to regular apiin, shows a frustration for blending if even minimal moisture sneaks into the line.
The backbone of our offering is the refined 3-Methoxy Apiin, offered as model 3-MA-1512, optimized for laboratory, pilot, and industrial use. In our experience, this flavonoid glycoside’s stability in storage and behavior during formulation are closely linked to the subtle differences in crystalline habit, which we achieve by fine-tuning solvent ratios during final purification. The crystalline powder, off-white to pale yellow, clumps if humidity is uncontrolled. In a dry room, free-flowing powder is guaranteed. We pack in double-lined, vacuum-sealed containers, not only for shelf life but because nothing frustrates a downstream user more than a batch clumping in the drum before it even reaches a reactor.
Our process yields a product with an HPLC-based purity usually above 97%, and water content below 1%. True melting point sits at 225-228°C—slightly higher than standard apiin—confirmed by both DSC and manual capillary methods. We set strict targets for heavy metal residues, with lead and arsenic remaining below 1 ppm thanks to routine checks after extraction. Teams calibrate every run, so a quality slip never lands in the customer’s lot. Product stability testing covers both accelerated and ambient conditions, which gives us confidence in realistic shelf-life claims as opposed to theoretical numbers.
The core structural difference setting 3-Methoxy Apiin apart lies in its methoxy modification at the 3-position of the flavone backbone. Production teams must adjust for not only the additional synthetic step for methylation, but also stricter control over hydrolysis during extraction. The glycosidic linkage, often a weak point for some closely related compounds, remains more intact in our output thanks to gentle pH adjustments and temperature control throughout the production cycle.
Compared to regular apiin, the 3-methoxy analog resists degradation in mildly acidic conditions and demonstrates superior shelf stability, crucial for researchers needing months rather than weeks of storage. We hear from formulators in cosmetic and nutraceutical sectors who battle with breakdown of less stable flavonoids, prompting our focus on batch stability. Customers working in analytical chemistry appreciate the substance’s improved solubility in mid-polarity solvents like ethyl acetate, reducing time spent coaxing dissolutions before starting their actual work.
On the analytical side, our experience shows how the extra methoxy group shifts both its spectroscopic fingerprint and chromatographic behavior. QC staff have streamlined the in-house method for rapid identification, speeding up release for urgent projects. Industrial partners with automated formula lines have said their sensors pick up the distinctive spectral signature of 3-Methoxy Apiin, confirming its presence without doubt. This clarity is not always delivered by some other glycosylated flavones.
Initially seen as little more than an academic curiosity, 3-Methoxy Apiin’s real value turned out to be its flexibility and chemical resilience. Chemical manufacturers—ourselves included—pay attention to what research teams and production chemists prove in actual field trials. Instead of simply pushing technically pure chemicals, we listen for feedback about solubility, reactivity, color stability, and ease of handling.
In antioxidant research, 3-Methoxy Apiin’s extra methoxy group boosts its radical scavenging behavior, at least by assay metrics seen in our outside collaborations. This feature matters in developing actives for functional foods or cosmeceuticals, aiming for not just label appeal, but measurable stability and improved oxidative protection. Analytical chemists designing standards for HPLC or MS calibration report that 3-Methoxy Apiin’s distinctive retention time makes batch testing or sample spiking far less ambiguous, streamlining workflows that too often stall chasing co-eluting impurities.
Industrial users developing bioactive coatings cite the glycoside’s interplay between hydrophilicity and backbone rigidity, making it an option for specific functional films needing more than simple adhesion or water-dispersibility. Our own manufacturing engineers highlight the value in predictable reaction rates—critical in scale-up batches where unpredictable kinetics cost both material and time. It comes down to trust in data and confidence that every kilo from the drum matches the pilot lot used for initial research.
Food science teams reached out after noticing 3-Methoxy Apiin’s unique color development during complexation reactions, paving the way for novel ingredients in plant-based products requiring gentle antioxidant properties without the harsh bitterness sometimes imparted by other flavones. Technicians performing stability assays on emulsified products mention a decreased breakdown under simulated stress storage, an edge in keeping consumer goods shelf-fresh.
We don’t claim 3-Methoxy Apiin suits every formulation. Its solubility fits a niche, shining in mid-polar to aqueous blends, sometimes less so in high-fat matrices. Research teams often ask about direct substitution for regular apiin, only to find small but important differences in reactivity, impacting hydrogen-donating capacity or enzymatic transformations. Batch trials always matter more than theoretical equivalence.
Between the optimistic claims and real-life deployment, much of the untold story is about the challenges quietly resolved behind the scenes. 3-Methoxy Apiin demonstrates this point daily: extraction yield varies not only due to botanical source but also slight fluctuations in solvent composition or column packing density. Operators on the floor spend time adjusting process valves, catching subtle changes early, and rechecking TLC plates before releasing material for final purification.
Another battle comes in process safety and environmental stewardship. Our early experience underscored the need for closed-loop solvent recovery, especially given the chemical’s sensitivity to organic solvent residue and the local impact of disposal streams. Adopting solvent recycling didn’t just cut operational costs; it stabilized product quality by controlling trace contaminants, and it brought plant audits in line with evolving environmental standards.
Packing and transportation, often downplayed in academic papers, present their own lessons. Batches exposed even briefly to ambient moisture nearing the humidity threshold risk not only caking but surface degradation, leading to inconsistent results in the lab or worse, defective final products. To solve this, our logistics team built workflows around moisture sensors, double-barrier packaging, and routine batch checks—not to overengineer the process, but because customer QA teams inevitably catch inconsistencies early and demand answers.
We’ve also dealt with regulatory challenges, even though 3-Methoxy Apiin is plant-derived and non-toxic at regular exposure levels. Varying interpretations of international labeling, documentation, and accepted purity cutoffs have meant deeper collaboration with compliance teams. Every certificate of analysis and shipping document reflects actual spectroscopic and chromatographic data, not generic text. This transparency not only builds trust but also minimizes returns and customer downtime.
Continuous improvement remains part of a manufacturer’s DNA. Recent upgrades in reactor automation let us track real-time process parameters, issuing instant alerts if a reaction drifts off-profile. Teams use digital batch records, cross-referenced with past runs, to spot and correct trends before problems reach the shipping stage. In the past, quality hiccups cost time, rework, and sometimes customer confidence. Today, lessons learned feed back into training and process controls, raising standards for everyone involved.
Working every day with specialized plant-based compounds, our staff see beyond the standard distinctions between one flavone or another. The knowledge gained from repeated production cycles, failures, tweaks, customer complaints, and celebrated breakthroughs all feed back into a more robust offering. With 3-Methoxy Apiin, repeated trial and error created a product both predictable for analytical chemists and versatile for innovators in product development. Our direct engagement with downstream users highlights new strategies for blending, stability, and reactivity testing. We talk less about theoretical values and more about consistent outcomes in mirrored applications.
In the current marketplace, filled with resellers and intermediaries promising commodity-grade botanical extracts, direct supply from a trusted chemical manufacturer brings accountability back into focus. Every upgrade to purification, packaging, and transport comes from lessons — not marketing targets, but daily feedback. Trust arrives not from branding, but from honest, technical conversations across the industry.
The journey in producing and distributing 3-Methoxy Apiin reflects the unique demands placed on plant-derived specialty chemicals. There is no shortcut to consistent quality, just as no amount of documentation compensates for poor handling or lack of process discipline. Customers ask how we ensure lot-to-lot purity holds up under trial, or how our product maintains color and stability during long-haul shipping. Our response traces every step: careful sourcing, rigorous internal controls, and direct, open communication about batch performance. Audits invite real discussion on what works and what could be improved.
As applications evolve, and as regulatory and market priorities shift, we refine not only our process but also how we support practical use in new projects, scale-ups, and process transfers. Every new batch reveals both strengths and limitations. Because of our position as the original manufacturer—and not a third-party label—we deliver nuanced advice for formulation support, troubleshooting, and claims substantiation. Feedback loops from innovation teams, research chemists, and large-scale formulators matter more than theoretical endorsements.
Ultimately, 3-Methoxy Apiin demonstrates the lasting value of focused, patient manufacturing experience. Good production practices, careful tuning of extractive parameters, and a willingness to answer detailed technical questions create products commanding attention in an industry too often reliant on generic description. For those exploring new natural actives, reliable analytical standards, or functional plant-based ingredients, it is the journey from plant to product, data to delivery, that sets real manufacturers apart.
