© 2026 Sinochem Nanjing Corporation,
All Right Reserved
|
HS Code |
899672 |
| Chemical Name | Apigenin-7-Glucoside |
| Synonyms | Cosmosiin, Apigetrin |
| Molecular Formula | C21H20O10 |
| Molecular Weight | 432.38 g/mol |
| Cas Number | 578-74-5 |
| Appearance | Yellow crystalline powder |
| Solubility | Soluble in DMSO, ethanol, and methanol; slightly soluble in water |
| Melting Point | 267-270 °C |
| Purity | Typically ≥98% |
| Storage Temperature | 2-8°C (refrigerated, protected from light) |
| Source | Primarily found in plants such as chamomile (Matricaria chamomilla) |
| Uv Absorption Max | 267 nm |
| Logp | 0.41 |
| Structural Class | Flavonoid glycoside |
| Iupac Name | 5,7-Dihydroxy-2-(4-hydroxyphenyl)-4H-1-benzopyran-4-one 7-O-β-D-glucopyranoside |
As an accredited Apigenin-7-Glucoside factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Apigenin-7-Glucoside, 100mg, supplied in a sealed amber glass vial with tamper-evident cap, labeled with product details and batch number. |
| Shipping | Apigenin-7-Glucoside is shipped in secure, airtight containers to maintain stability and purity. Packages are clearly labeled and typically shipped at ambient temperature unless otherwise specified. Safety data sheets are included, and all shipments comply with international chemical transport regulations for safe and efficient delivery. Expedited shipping options are available. |
| Storage | Apigenin-7-Glucoside should be stored in a tightly sealed container, protected from light and moisture. Keep it at a temperature of 2-8°C (refrigerator) for optimal stability. Avoid exposure to heat and strong acids or bases. Always store in a cool, dry place, and ensure the container is properly labeled to prevent contamination or degradation of the compound. |
|
Purity 98%: Apigenin-7-Glucoside with purity 98% is used in pharmaceutical formulations, where it enhances anti-inflammatory efficacy and ensures consistent bioactivity. Molecular weight 432.38 g/mol: Apigenin-7-Glucoside with molecular weight 432.38 g/mol is used in nutraceutical supplements, where it facilitates precise dosage calculations and bioavailability. Stability temperature up to 60°C: Apigenin-7-Glucoside with stability temperature up to 60°C is used in cosmetic emulsions, where it maintains antioxidative properties during processing and storage. Particle size less than 10 microns: Apigenin-7-Glucoside with particle size less than 10 microns is used in topical cream formulations, where it supports uniform dispersion and increased skin absorption. Water solubility 10 mg/mL: Apigenin-7-Glucoside with water solubility 10 mg/mL is used in beverage fortification, where it allows for easy dissolution and homogeneous distribution. Melting point 220-225°C: Apigenin-7-Glucoside with melting point 220-225°C is used in food packaging coatings, where it increases thermal resistance and product shelf-life. HPLC assay ≥99%: Apigenin-7-Glucoside with HPLC assay ≥99% is used in research assays, where it ensures analytical accuracy and repeatable experimental outcomes. UV absorbance 335 nm: Apigenin-7-Glucoside with UV absorbance at 335 nm is used in antioxidant capacity testing, where it permits reliable quantification and activity assessment. |
Competitive Apigenin-7-Glucoside prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: admin@sinochem-nanjing.com
Flexible payment, competitive price, premium service - Inquire now!
Manufacturing Apigenin-7-Glucoside over years of hands-on production runs, you quickly notice the challenges and opportunities that do not show up on tidy product sheets. This flavonoid glycoside, identified by its model number AG7G-100, starts as more than a name on a raw material order—it represents a careful balance of plant extraction technology, solvent control, and quality assurance checkpoints that only a direct manufacturer understands intimately.
On the line, the most decisive factor remains purity. We consistently deliver a minimum 98% purity threshold, and routine HPLC batch analysis has proven essential to avoid common pitfalls seen in lower-grade rivals. Oversight here never happens by chance. Vendor samples in the open market often claim high apigenin glycoside content, but we see regular mismatches under cross-lab retesting using comparative database controls. Our production protocols reflect years of internal calibration: starting with Chrysanthemum or parsley, we monitor each phase from hydrolysis prevention to final lyophilization, limiting residual solvents well below accepted pharmacopeial cutoffs.
We package this product in 25kg fiber drums, lined with food-grade film, and actively track moisture exposure across transport points. This alone consistently separates chemical manufacturer product from resold, repacked supplies. Overlooked warehouse humidity controls have wasted too many shipments in the hands of intermediaries; our in-house logistics address these lessons with real-time sensors along the pipeline. Even a nominal 0.5% loss in glucoside content after improper exposure creates downstream problems in formulation—cost, rework, loss of customer trust. Nobody in wholesale chemistry has patience for that.
End-users see Apigenin-7-Glucoside as a functional ingredient for everything from dermal formulations to nutraceuticals. As manufacturers, we watch its utility stretch even further. Natural pigment stabilization emerges as one practical area: this compound holds an edge in preventing color degradation under UV exposure during the shelf-life of gels or aqueous solutions. Years ago, a beverage customer flagged inconsistency in thermal stability using off-the-shelf Apigenin—project reports blamed formula drift, but technical review pointed directly to inferior glucoside linkage.
Working side-by-side with R&D, we analyzed batch-to-batch degradation. Our approach was straightforward: we tailored particle sizing to 50 mesh, which maximizes solubility for both hot and cold processing. This change alone increased the lifespan of active content in the customer’s final product by 18%, measured under quartile retention studies performed over six months. Small operational improvements at production scale—like this mesh control—make the difference between scientific promise and commercial advantage.
In our own labs, Apigenin-7-Glucoside testing never finishes at purity alone. Anti-inflammatory and antioxidant markers are now routinely classified through in vivo and in vitro protocols. One run using fibroblast cultures revealed consistency: batches directly traceable to controlled harvests maintained higher efficacy as assessed by SOD and GSH enzymes. These markers drop dramatically when supply chain oversight slips, which we’ve seen in market samples sourced from uncertain intermediaries. The final user—be it a cosmetics lab or supplement formulator—often cannot reverse a breakdown that starts in the raw material silo.
Much confusion surrounds apigenin derivatives. Buyers sometimes equate Apigenin-7-Glucoside with related forms like Apigenin itself, or even with Luteolin-7-Glucoside. Differences matter both in bioactivity and processing behavior. Apigenin-7-Glucoside dissolves in water substantially better than pure Apigenin aglycone, simplifying product development where aqueous compatibility is necessary. This benefit means less energy spent on formatters and dispersants—a fact familiar to those who regularly formulate transparent drinks, gels, and clear serums. Our batches are standardized for this use, built on full solubility mapping from 5°C to 95°C.
People often ask us about color and taste. Apigenin-7-Glucoside imparts noticeably less bitterness than comparable polyphenols. This subtle aspect becomes critical for developers working with oral or topical dosage forms where off-notes can sink a product line. Years ago, we ran comparative sensory trials with teams building antioxidant drink blends and creams. Regular Apigenin and Luteolin-7-Glucoside both produced uneven astringency; only the 7-glucoside cleared internal approval for clean taste and acceptably mild aftertaste. Our on-site researchers keep revisiting this, since taste and olfactory notes shift batch-to-batch if upstream controls slide.
Natural sourcing has become a focal point for regulatory and sustainability audits. As a direct manufacturer, we have mapped all raw inputs by region, and constantly audit for pesticide and heavy metal residues. Not every supplier survives quarterly reviews. We maintain a rotating panel to cross-check field certificates, verifying actual content at the leaf or flower source. Finished batches regularly fall outside spec when upstream routes mix old and new crops indiscriminately—a fact too many market players ignore for the sake of price cuts.
Apigenin-7-Glucoside earns its keep in complex matrixes—high-turnover botanicals, multivitamin fortifiers, skin emulsion pre-mixes—where consistent performance saves time and money in pilot runs. We have watched smaller-scale clients try to swap in generic aglycones or cheap 5,7-diglucosides. Formulation failures usually surface within weeks: precipitation in solutions, inconsistent dispersibility, or localized crystallization in viscous serums. Our chemistry team has data showing that 7-glucoside glycosylation both increases polarity and dramatically limits unwanted side reactions in the presence of light, oxygen, or common excipients. Few commercial suppliers routinely share this level of insight with users reliant on standardized shelf-life.
Standard in-process QC starts with UV-Vis at 335nm and fast, confirmatory methods—TLC and retention time fingerprinting using LC-MS. For downstream compatibility, we guarantee sulfated ash content <0.2%, addressing common worries about inorganic contamination. Finished product regularly meets microbial and heavy metal screening, with batch releases only after confirming the final product profile across dozens of stability parameters. Years of hard data show how otherwise identical-looking glucosides from various makers degrade differently, even within regulated supply chains.
Physical properties—such as controlled powder flow—impact not just large industrial operations, but also smaller custom laboratories. Engineers appreciate uniform batch handling, particularly when scaling formulations to multiple tonnage-level lots. We customize drying and granularity solutions based on use-case feedback, sometimes running short pilot batches for customer laboratories. Dosing consistency, especially for multinutrient supplement manufacturing, relies entirely on the handling profile—too many off-market products ignore these nuts-and-bolts details.
Teams developing finished products have shared details that never turn up in brochures. In multistep cosmetic emulsions, the tendency for Apigenin-7-Glucoside to maintain clear dispersion under various pH conditions has proven vital. Standard Apigenin fails to retain even clarity at pH >8 or <4, creating haziness and destabilization. We regularly field requests for technical support with these nuances, especially for new entrants transitioning from synthetic colorants or stabilizers. Our lab supports this by running real-world, accelerated aging—testing shelf stability under thermal shock, with chemical markers tracked by time-based sampling.
Seasoned teams frequently inquire about bulk handling and storage. Given its hygroscopic nature, the manner of storage makes a significant difference. We’ve seen improperly sealed shipments at third-party depots turn from free-flowing powder to stubborn clumps in days. Our in-house warehousing solution integrates desiccant packs and double layer moisture-proof bagging. Longtime bulk buyers demand this, and we have structured our production and storage lines to deliver exactly what their feedback has shaped.
Beyond product quality itself, traceability draws attention. Our process integrates end-to-end chain-of-custody—signed off digitally—to reassure oversight teams conducting supply audits. Supplement and cosmetic brand owners have increasing pressure to provide credible documentary evidence. Working at the manufacturer tier, each drum of Apigenin-7-Glucoside carries a unique, trackable batch identity linked with every process input and quality test along the path from field to shipment.
In the last five years, regulatory focus has moved from broad compositional purity toward deeper scrutiny—residues, provenance, and even carbon footprint. Working as primary producers puts us in the driver’s seat to meet evolving requirements directly; we can adapt procedures swiftly and transparently as rules update. Last season, when residue thresholds for solvent traces dropped below old standards, our team updated the filtration and drying curves on every production run. This agility is only possible on the manufacturing floor, never for resellers waiting for upstream confirmation.
Supply partners request and receive detailed raw data: full analytical breakdowns (including detailed chromatograms), origin information, and third-party certifications. We provide exact harvest-to-factory-to-lab records, reflecting our direct involvement. Users who operate under strict health claims benefit—new nutraceutical launches or cosmetic studies now require production diaries and process controls all the way back to source. Only direct producers able to open their process books can maintain compliant, long-term partnerships as these industry shifts accelerate.
Innovation in extraction, purification, and drying keeps advancing. Our lab stays linked to both academic and commercial pilot programs, applying findings from joint studies. One project paired new enzyme systems with membrane filtration; it caught trace byproducts otherwise left behind in traditional ethanol extraction, raising both yield and purity. Unlike third-party brokers, who simply reflect certificates from afar, we test, adapt, and lock in improvements at the source. These insights feed straight into customer specifications and the forward planning of formulation teams.
Real problems surface across the industry: inconsistent batches, unclear supply records, and unexplained failures in product development. Years of feedback have taught us that direct, clear communication and robust technical support prevent most issues before they escalate. Shared data rooms enable down-the-line partners to view batch histories and test results live, not just at shipment but throughout storage. This transparency limits project risk, especially for research-driven partners managing critical path timelines or rapid regulatory reviews.
Custom batch runs represent another hands-on solution. Customers developing new formats—such as fast-dissolve strips or liquid vials—often need tailored powder characteristics. We run controlled, short-scale operations to trial new dehydration, granulation, or particle size adjustments. This service proves crucial for early-stage innovation, allowing rapid adjustment and process reconfiguration far beyond what any distributor can legally or practically offer.
Ongoing education strengthens user partnerships. We offer regular technical briefings, covering recent findings on bioavailability, formulation stability, and novel delivery systems. By keeping lines open, teams gain early awareness of method advances and regulatory alerts, which in turn flow back into how we shape future production and upgrade schedules.
Long-term trust cements all relationships. Each shipment reflects collective experience: handling purity at scale, working through shipping and storage hurdles, and troubleshooting formulation challenges as soon as they arise. Direct feedback loops harness in-field learning, passing manufacturing insights into both the lab and the boardroom. None of this is possible for resellers who handle products only after-the-fact. Our dedicated focus, as direct chemical manufacturers, shapes both the reputation and lasting value of Apigenin-7-Glucoside far beyond what standard market listings imply.
Years of close collaboration with formulators, technical staff, and corporate auditing teams have grounded our faith in direct manufacturing. Each batch of Apigenin-7-Glucoside entering the market stands as more than a chemical—it reflects countless decisions, optimizations, and safeguards built into every stage of the process. The biggest lesson? Sustainable quality, traceable records, and honest technical feedback always beat cutting corners for short-term price wins. As regulatory demands, customer sophistication, and product complexities all increase, only the true manufacturers adapt fast enough to keep pace. Every process upgrade, plant audit, or R&D partnership informs our next improvement, strengthening reliability for years to come.
Consistent, high-purity Apigenin-7-Glucoside isn’t luck or deskwork. It takes front-line know-how, continual investment in process visibility, and a willingness to solve practical challenges alongside customers in real time. This guiding principle shapes our approach—in the plant, in the lab, and through every partnership—delivering not just another chemical, but a foundation of quality, transparency, and utility you can trust to last over time.
