|
HS Code |
341479 |
| Chemical Name | Benzoylpaeoniflorin |
| Molecular Formula | C32H28O14 |
| Molecular Weight | 620.56 g/mol |
| Cas Number | 38642-49-8 |
| Appearance | White to off-white powder |
| Solubility | Soluble in methanol, ethanol, slightly soluble in water |
| Melting Point | 142-144°C |
| Purity | ≥98% (HPLC) |
| Source | Paeonia species (peony root) |
| Storage Temperature | 2-8°C, dry and dark place |
| Iupac Name | benzyl (1S,2S,3S,4S,5S,6R)-3-(benzoyloxy)-6-[(2S,3R,4S,5S,6R)-3,4,5-trihydroxy-6-methyloxan-2-yl]oxy-1,2,4,5-cyclohexanetetraol |
| Synonyms | Paeoniflorin benzoyl ester |
| Usage | Reference standard, research reagent |
| Stability | Stable under recommended storage conditions |
As an accredited Benzoylpaeoniflorin factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Benzoylpaeoniflorin is supplied as a 10 mg fine white powder in a tightly sealed amber glass vial with clear labeling. |
| Shipping | Benzoylpaeoniflorin is shipped in tightly sealed containers, protected from light, moisture, and extreme temperatures. The chemical is typically packed with cushioning material to prevent breakage. All shipments comply with safety regulations, including accurate labeling and documentation. Expedited shipping options are available to ensure product integrity during transit. |
| Storage | Benzoylpaeoniflorin should be stored in a tightly sealed container, protected from light and moisture. Keep it at a temperature of -20°C or below for long-term storage. Ensure the storage area is well-ventilated and away from incompatible substances. Store in a designated chemical storage area and label clearly to prevent accidental misuse or contamination. Avoid repeated freeze-thaw cycles. |
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In the world of specialized plant-derived compounds, Benzoylpaeoniflorin stands out as a signature ingredient with both historical roots and modern application. As a chemical manufacturer, we draw on a decade of hands-on experience working directly with paeoniflorin derivatives—extracting, refining, and scaling their production for research and industrial needs. This familiarity gives us a tangible sense of what Benzoylpaeoniflorin offers and sets it apart from similar natural products.
The story of Benzoylpaeoniflorin begins with the peony root, a staple of traditional herbal practices in Asia for centuries. From these roots, paeoniflorin emerges as a major constituent, recognized for its diverse properties. Through careful benzoylation—adding a benzoyl group under controlled conditions—we generate Benzoylpaeoniflorin. This subtle chemical transformation doesn’t just change a molecular formula, but influences how the compound performs in extraction, stability, and intended end-use.
In our facilities, every kilogram of Benzoylpaeoniflorin passes through multiple stages of crystalline purification and quality checks. During large-scale batches, the biggest challenge often involves keeping moisture and trace ionic impurities far below 0.5%. It’s easy to talk about purity on a lab scale, but meeting research-grade specs at tonnage requires constant vigilance. We use analytical HPLC for every lot, and our standard product reaches a purity level above 98% by peak area, making it suitable for detailed pharmacological studies as well as analytical standards.
Our Benzoylpaeoniflorin comes as a faintly yellow, microcrystalline powder, with a defined melting point and low hygroscopicity. Each batch is produced under temperature-controlled and inert atmosphere conditions to discourage degradation. Technicians often comment that processed Benzoylpaeoniflorin is easier to handle and store compared with its cousin paeoniflorin, particularly over long-term warehousing or in regions with fluctuating humidity.
We maintain strict control on our product model, focusing on a narrow specification band. Benzoylpaeoniflorin from our plant typically offers a moisture content below 0.3%, clarity above 98% as measured by HPLC, and near-orthogonal confirmation with both NMR and mass spec. We’ve learned from end users, especially in pharmaceutical research and reference lab arenas, that reproducibility matters tremendously. Even small shifts in the benzoylation yield or residual solvents change the performance of the compound in sensitive biological assays.
Physical specifications go beyond paper data: customers regularly send feedback about flowability, static, and caking during transfer. We continue to refine milling and final drying to make the material less prone to static build-up, which can cause waste or inconsistent dosing in laboratory environments. Our technical team adjusts granulation profiles and sieving setups according to order—one customer might require a compacted form for tableting, while another needs a super-fine powder for solution preparation.
Uses of Benzoylpaeoniflorin tend to cluster at the intersection of discovery pharmacology, botanical ingredient research, and molecular target validation. A big draw is its role as a probe compound for the study of anti-inflammatory and immunomodulatory pathways. Since Benzoylpaeoniflorin differs structurally from the basic paeoniflorin molecule—possessing a benzoyl ester group—it demonstrates altered bioavailability and different affinity for specific bioactive targets. Laboratory teams notice these differences quickly in comparative in vitro assays.
Pharmaceutical researchers value our direct production chain because we can tune synthesis parameters to address the details they depend on: trace metals, appearance, solvent residuals. During one recent batch run for a toxicology group in Europe, we coordinated extra steps in the precipitation and washing cycles, due to their request for absolute ethanol over isopropanol, seeking to minimize potential byproducts. This type of feedback loop has become more common as regulatory expectations continue to tighten, and full transparency in raw material history is now an expectation, not an extra service.
Research groups investigating the mechanistic action of natural compounds favor our transparent technical documentation. Our internal chemists regularly publish how solvent polarity or pH during synthesis affects the yield and stability of Benzoylpaeoniflorin. By comparing paeniflorin, Benzoylpaeoniflorin, and related galloylated derivatives, researchers tease out nuanced pharmacodynamic profiles. It’s one thing to read abstract numbers in a catalog, but being able to communicate firsthand processing details opens up genuine collaboration between manufacturers and users.
Many in our field ask what sets Benzoylpaeoniflorin apart from standard paeoniflorin and polyphenolic derivatives such as galloylpaeoniflorin. Chemical structure plays a central role: the addition of a benzoyl group increases hydrophobicity and slightly alters the molecule’s overall three-dimensional conformation. This change impacts how the compound dissolves, partitions in organic and aqueous environments, and interacts with both natural cell membranes and assay reagents.
Lab technicians report Benzoylpaeoniflorin dissolves more uniformly in certain polar organic solvents compared to paeoniflorin, making it more predictable in multi-solvent protocols and formulations. Its improved stability under light and temperature exposure also supports better shelf-life, which customers dealing in hot climates have confirmed through real-world feedback. Less tendency for hydrolysis has tangible workflow advantages when prepping samples or calibrating quantification standards.
While galloyl and caffeoyl paeoniflorin derivatives present a higher degree of antioxidant activity, Benzoylpaeoniflorin tends to exhibit distinctive interaction signatures with cellular signal cascades, often influencing cytokine and complement systems differently. Over several years, published studies and in-house collaborations have built a catalog of references supporting these distinctions, and the demand for high-purity Benzoylpaeoniflorin reflects a growing interest among biochemists seeking to parse these differences.
Production engineers in our team find that Benzoylpaeoniflorin requires less aggressive extraction solvents during the initial plant root processing, which avoids potential denaturation of sensitive natural ingredients. That translates, in practice, to a final product with fewer off-target contaminants and better documentation for regulatory review. It’s a scenario where process knowledge pays off in the product’s analytical traceability.
Scaling Benzoylpaeoniflorin production involves more than simply increasing reactor size or extending batch times. During peak seasons when peony roots arrive in volume, we coordinate with growers to receive fresh, unadulterated material—harvested, transported, and processed within tight timeframes. We maintain direct supply partnerships and invest in onsite training for growers on storage and cleanliness, since even small mistakes in pre-processing impact the downstream benzoylation efficiency.
Once in the plant, root lot selection and pre-treatment have earned a sort of legendary status within our processing team. Subtle factors—ambient humidity, root aging, visible fungus—can alter precursor content and pose hurdles for later purification steps. Our team works on splitting incoming roots into tightly defined process batches, testing representative samples for moisture and phenolic profiles, then aligning the reactor set-up for each sub-lot. Repeatability like this pays off in customer trust and batch-to-batch consistency.
Customer feedback drove us to adapt additional filtering steps at both the liquid-liquid extraction phase and the post-benzoylation workup. Filtration isn’t just about clarity; our QC personnel monitor filtrate color and electrolyte load, since even trace ions sometimes induce crystallization issues in downstream drying. Regular investment in both employee and equipment training keeps our solutions practical and rapidly adaptable.
One of the unique experiences as a direct manufacturer comes when transferring hard-won technical knowledge to the scientists who use Benzoylpaeoniflorin. We send every shipment with detailed batch data and synthetic route documentation, so any researcher receiving our product understands both the origin and potential constraints. Many customers ask for deeper stability profiles, solubility ranges, and chemical interaction data not standard in generic reference compounds.
Early-stage pharmacological groups, especially those in university settings with tight budgets, express real gratitude for open access to technical dialogue. One example involves troubleshooting HPLC peak splitting, which stemmed not from product quality but from an incorrect solvent ratio in sample workup. Because our chemists had encountered similar issues during scale-up development, they provided tested recommendations quickly, saving weeks of experiment time.
Direct access to source chemical experts, rather than rerouted through traders or distributors, lets customers voice immediate concerns. Subtle changes in Benzoylpaeoniflorin appearance or flow properties are inevitably spotted by sharp-eyed technicians, who appreciate the transparency and accountability of having factory-direct answers. While third-party middlemen often recite catalog lines, our lab and production staff respond with context, history, and hands-on troubleshooting.
In manufacturing Benzoylpaeoniflorin, no two batch cycles unfold exactly alike. Peaks in ambient temperature or sudden humidity shifts throw curveballs at both extraction and crystallization. We’ve found local climate control, enhanced process monitoring, and continual operator training deliver tangible improvements. Our in-house team participates in regular problem-solving sessions—recently, they brainstormed improvements to drum sealing methods to minimize oxygen ingress.
Looking at customer and regulatory expectations, documentation and data integrity stand out as new norms, not bureaucratic hurdles. Regulatory bodies in different markets expect transparent track records—including synthetic route details, allergen controls, and processing aids. Our compliance and QA teams work alongside production, not against them, giving us a big-picture perspective that traders or brokers rarely enjoy.
We often evaluate feedback on how our Benzoylpaeoniflorin performs in pilot and demo-scale setups, incorporating real-time chemical and operational feedback. Technical advances, such as improved slurry handling or tailored drying cycles, often come directly from customer-academic collaborations. Meeting rigorous research requirements one month and nutraceutical inquiries the next means we keep methods both robust and flexible.
Over the years, our reputation rests less on what’s printed on a specification sheet, and more on industry relationships and open lines of communication. Repeat clients return because they know our Benzoylpaeoniflorin meets the same standards shipment after shipment, and because past incidents—such as storm-related freight delays—were handled transparently and promptly.
Factory site tours often yield curious questions about safety systems and redundant testing. We value these visits because they bridge the gap between what’s expected on paper and what’s actually delivered to the bench or the instrument. Realizing that customers trust our word as much as our warranty, our staff encourages technical dialogue and onsite validation. This interaction builds not merely market confidence, but technical know-how on both sides.
As more regulatory agencies adopt guidelines favoring direct-source materials with complete documentation, our approach sets a foundation for compliance. Batch numbers, analytical files, and sourcing certificates accompany every consignment. We don’t just ship product—we ship confidence, backed by hands-on control of every detail from field to flask.
Participation in research conferences and publication of joint studies with university partners gives us an opportunity to gather direct, actionable feedback. Benzoylpaeoniflorin projects often uncover new insights about metabolic stability, interaction potential, or bioassay optimization, especially when researchers share experimental hurdles as well as successes.
Not all innovations come from inside the plant. A recent academic partner investigating solubility outcomes in nanoparticle carriers challenged us to adapt our purification step, reducing trace oil residues that previously hampered their formulation. Our team responded by piloting a new post-drying washing sequence, turning a supposedly minor upstream tweak into improved downstream compatibility.
Many novel applications for Benzoylpaeoniflorin are still emerging. Some groups are exploring it as a scaffold for linked molecular probes, others as a modulator in tissue culture assays. We welcome pilot-scale projects and joint troubleshooting sessions with innovative researchers. Being direct manufacturers, we can afford to experiment and iterate, learning alongside our customers.
Looking forward, we continue to invest in both people and plant infrastructure, confident that Benzoylpaeoniflorin’s role in organ-targeted research and botanical therapeutics will only grow. Our synthesis team refines each step, always watching for ways to increase yield, reduce environmental impact, and offer flexibility in packaging and delivery methods. Our QC group embraces changing analytical standards, proactively updating procedures so end-users receive current, research-grade material.
New requirements emerge every year. Some customers want pelletized formulations for automated feeding systems, others request ultra-low endotoxin content for cell culture. We couple these demands with our own goals around green chemistry and safe worker practices. We seek not just to meet, but to help shape, the standards that Benzoylpaeoniflorin must embody in the coming years.
We consider open conversation, clear documentation, and transparent production as essential to our work. Our success depends on the results achieved by the scientists, formulators, and engineers who rely on our Benzoylpaeoniflorin. We approach each challenge with experience and curiosity, determined to stay not just in the supply chain, but within the heart of scientific exploration.
