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HS Code |
998187 |
| Chemical Name | 4-Hydroxy-3-Methoxybenzyl Nonamide |
| Molecular Formula | C16H25NO3 |
| Molecular Weight | 279.38 g/mol |
| Appearance | White to off-white solid |
| Melting Point | Approx. 75-80°C |
| Solubility In Water | Low |
| Smiles | CCCCCCCCC(=O)NCc1ccc(O)c(OC)c1 |
| Purity | Usually >98% (commercial standard) |
| Storage Conditions | Store at 2-8°C, protect from light and moisture |
| Density | Approx. 1.1 g/cm³ (estimated) |
| Functional Groups | Phenol, Ether, Amide |
| Usage | Research chemical, potential bioactive compound |
As an accredited 4- Hydroxy-3-Methoxybenzyl Nonamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging is a 25g amber glass bottle with a secure screw cap, clearly labeled with the chemical name and hazard warnings. |
| Shipping | 4-Hydroxy-3-Methoxybenzyl Nonamide is shipped in tightly sealed, chemical-resistant containers to prevent contamination and degradation. It is transported under cool, dry conditions, away from incompatible substances. Shipping complies with all relevant regulatory standards, and appropriate documentation and hazard labeling are provided to ensure safe and secure delivery. |
| Storage | 4-Hydroxy-3-Methoxybenzyl Nonamide should be stored in a tightly sealed container, protected from light, heat, and moisture. Store at room temperature in a well-ventilated, dry location away from incompatible substances such as strong oxidizers or acids. Clearly label the container, and ensure easy access to appropriate safety data sheets (SDS) and protective equipment in case of accidental exposure or spills. |
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Purity 99%: 4- Hydroxy-3-Methoxybenzyl Nonamide with 99% purity is used in pharmaceutical synthesis, where it ensures consistent efficacy and reproducibility. Melting Point 56°C: 4- Hydroxy-3-Methoxybenzyl Nonamide with a melting point of 56°C is utilized in topical formulations, where it offers controlled release and improved stability. Molecular Weight 243.28 g/mol: 4- Hydroxy-3-Methoxybenzyl Nonamide with a molecular weight of 243.28 g/mol is applied in medicinal chemistry studies, where it provides predictable pharmacokinetic profiles. Solubility in Ethanol: 4- Hydroxy-3-Methoxybenzyl Nonamide with high solubility in ethanol is employed in liquid delivery systems, where it allows for homogenous dispersion and enhanced bioavailability. Storage Stability at 25°C: 4- Hydroxy-3-Methoxybenzyl Nonamide demonstrating storage stability at 25°C is used in laboratory reagent kits, where it ensures prolonged shelf life and maintained activity. |
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4-Hydroxy-3-Methoxybenzyl Nonamide takes a meaningful spot among the specialty chemicals we manufacture. The compound—with its molecular framework built around a vanillyl core—brings together function and consistency, matched by few others in the family of alkyl amides. Our experience shows that small modifications in the benzyl chain or the alkyl group can dramatically shift behavior in application. The nonamide variant, with its nine-carbon chain, stands out from similar vanillyl amides for both physical properties and its performance characteristics. We’ve seen this both during synthesis and downstream in customer use.
In simple terms, the product looks like a slightly off-white solid at room temperature, easily manageable in our blending and packing lines. The fragrance gives a soft, spicy note, but the real story lies beneath in how the molecule carries reactivity without unpredictability. Batch after batch, we check for high purity—typically above 98% on a GC-HPLC assay—because trace impurities disrupt both the chemistry and the user experience down the line. Our technicians and QC staff understand how critical this purity can be. Minor differences in preparation or temperature during processing can impact overall outcome, so our lines run with regular monitoring, not just because specifications demand it, but because our formulation staff and end-users depend on it.
Chemical production isn’t just about getting the right molecule on paper. We see first-hand the impact of even small differences in manufacturing conditions on both efficiency and reliability. For the nonamide in question, melting point sits around the mid-60s Celsius, which proves ideal for both storage and handling. Consistent lot-to-lot melting behavior simplifies downstream usage, preventing headaches for formulators blending in large stainless reactors or pilot-scale glassware alike.
Unlike imports that sometimes drift between brownish or oily solid, our product holds a stable form—no unwanted clumping, and packaging stays dust-free. Years of dialing in raw material sourcing and solvent recovery cycles have trimmed down off-odors and kept discoloration out of our shipments. There’s a direct feedback loop here: users in fragrance creation or topical products report fewer inconsistencies, and the trouble of unexpected performance variation drops off. That trust gets built batch over batch, not in claims or technical sheets, but in what users see when they open a drum day after day.
Vanillyl nonamides, especially this one, have become increasingly relevant in both personal care and food tech over recent years. Our direct clients are typically well-versed chemists, but sometimes their operations get slowed by variable melting points, off-smells, or stubborn crystallization during blending. From our side, we’ve streamlined the process to engineer a product that handles predictably at scale.
Some of the most common uses we see include application as a warming agent in topical preparations—balms and creams aiming for a robust yet tolerable skin-tingling effect favor this specific chain length. Nonamide features a heat sensation intensity that sits right between milder ethyl analogs and the fierce intensity found in classic capsaicin or dodecyl variants. That opens space for formulators looking for a warming effect that won’t burn or irritate, a balance found through hands-on testing, not just lab calculations.
In addition, the molecule has carved a niche in flavor chemistry as a scaffolding agent that can extend and round spicy notes without overwhelming the palate. Beverage technologists and flavor houses use it to add subtle pungency in drinks or sauces. The solubility profile makes it a fit for both oil-based and emulsion systems. Over years of shipment and case studies with customer R&D labs, we’ve seen the molecule hold up both in stability tests and under regulatory review for various market regions.
There’s also a side stream of demand from analytical labs validating capsaicinoid analogs. We get regular calls for traceable, pure nonamide standard material. For these clients, authentication through our in-house NMR and GC-MS results matters just as much as the basic purity numbers. Labs value being able to trace material right back to site of synthesis instead of guessing at the origin of intermediates.
Experience counts for a lot when it comes to finding the unique differences between various vanillyl amides. Shorter chains like vanillyl butylamide or ethylamide come with fast onset of warming and somewhat fleeting sensation. Nonamide, with its nine-carbon chain, stretches out the heat profile, which feels more even and less ‘spiky’ than the shorter or longer analogues.
On the other side, vanillyl dodecylamide, a popular incumbent in topical warming creams, hits harder and lingers longer, sometimes causing skin discomfort. We first tuned our synthesis line to produce nonamide at scale on request from formulators wanting an alternative between these options. What followed were years of batch feedback compiled into refinements: easier solubilization in mixed solvents, steadier release in skin-contact applications, and far less irritation risk when matched against the dodecyl variant. Customers working on regulatory submissions or new product registrations have shared positive comparative data, which matches what our own test team logs week after week.
Another practical difference lies in consistency of appearance and absence of oily byproducts. Not every supplier manages to keep long-chain amides from seeping or clumping during storage. Our process stabilizes the solid state, meaning fewer storage complaints and less downtime during bulk handling. Warehousing managers who open a storage tote or lab techs scooping from a jar can rely on a uniform product experience.
Making 4-Hydroxy-3-Methoxybenzyl Nonamide isn’t as simple as running one reaction and filling containers. The process demands control, right through each stage: precise alkylation conditions, time-monitored hydrolysis, solvent stripping tuned to minutes rather than hours. QC teams know to check beyond just HPLC traces—they watch for specific markers of side reactions. Our labs run regular spot-checks of melting range, color on the Gardner scale, odor panels, and trace metals, catching any deviation before shipment leaves the plant.
Handling feedback directly from formulation chemists and process engineers, we keep records of each lot. Over time, that gives us the ability to trace trends and head off issues before they spill over to the customer. It’s a back-and-forth that goes well beyond online listings or catalog order numbers. Close work with both large-scale end users and specialty labs has built in-house knowledge about the best way to deliver the molecule without loss of functional quality. We have tailored our process not through blanket approaches, but through detailed attention to small, often overlooked details that only a manufacturer on the ground can track.
Scaling up from bench-top synthesis to tonnage production brought its own set of lessons learned. Each scale jump changed how the reaction mix behaved, both in terms of heat transfer and mixing efficiency. Systems that worked with beaker-level batches often required new agitation speeds, cooling rates, or even vessel coatings. We built in these improvements after each run, staying in constant dialogue with plant engineers and front-line operators who see the compound move hour by hour.
Chemists skilled in formulation know the nuisance of micro-clumping or partial dissolution. The nonamide’s melting and solubility characteristics allow for rapid incorporation into a range of matrixes, including PEGs, natural oils, and water-in-oil emulsions. Teams working with our material report less time lost to remixing or temperature holding. More stable melts matter for hot-fill systems as much as for cold compounding in small-batch development.
The cleanliness of our product—meaning the lack of side-chain fragments or oxidized bits—reduces need for repeated filtration or downstream remediation. This impacts real-world efficiency: R&D doesn’t get bogged down by having to resolve minor but recurring processing flaws, and plant managers avoid yield loss to cake after grinding or melting. Our team keeps these operational realities front and center during every kilo made.
Handling both small-batch and bulk clients means responding to more than just generic product ranges. We routinely review feedback and incorporate adjustment if reported, down to revisiting raw input suppliers or updating our reactor cleaning schedules. In practical terms, that’s how lot traceability turns from a buzzword into a living workflow: tracking not just backward from shipped product, but forward into next-cycle improvements based on exactly what chemists and processors relay.
Manufacturing isn’t just about blending inputs. Each nonamide batch runs under systems designed for traceability at every stage, not just document compliance. Down the line, customers—ranging from multinational personal care brands to independent analytical labs—have direct visibility into QC results specific to their shipment. No substitute exists for repeatable, transparent reporting, and the relationships built on having technical staff who can talk beyond brochure claims. Our account managers and plant team work side-by-side to resolve real-use challenges, not just supply logistics. That could mean adjusting shipping conditions or drum lining based on regional climate shifts, or flagging potential variances so that downstream problems get solved before they become expensive.
Through regular dialogue with R&D and regulatory partners, we’ve found that consistent, validated product reporting has become almost as critical as the molecule itself. Detailed batch data delivered promptly allows customers to keep moving toward tight launch timelines or quality audits without interruption. We make sure that the product arriving at the client’s site matches every data point given in advance, because gaps between paperwork and pallet contents cost months and erode trust quickly.
Engineers and lab supervisors frequently request run histories, impurity profiles, or stability data. We keep an accessible database that can provide this information by lot number, helping our partners stay out in front on audits and formulation updates. The flow of information is direct; feedback doesn’t get lost in a chain of resellers or agents—it goes straight from user to manufacturer and gets acted on locally.
Moving a specialty chemical like 4-Hydroxy-3-Methoxybenzyl Nonamide across borders brings more than just regulatory forms. Our logistics and compliance staff have handled registrations, language labeling, and stability testing for dozens of markets, working directly with clients’ registration and documentation teams. Having feet on the ground keeps shipments from lingering at customs while paperwork gets sorted out, and tracking compliance trends lets us keep clients up to date on any new regional requirements affecting their projects.
We help troubleshoot not just for ourselves, but for product launches that hinge on a single, consistent active. Whether a client runs a skin-contact balm line or manages ingredient certifications for a food brand, our process has been shaped by years guiding both emerging and established players through registration and launch. Advice and documentation flows from practical experience, not scripts or generic templates.
Overhauling process flows for a single molecule takes more than just updating reactors or lab protocols. Every improvement—from cleaning methods to cycle times—carries the accumulated wisdom of direct client feedback. For example, some of our largest accounts needed predictable lot sizing for automatic dosing systems in production. We adjusted drum fill methodology and sealing parameters so each container flows evenly into robotic lines, avoiding the need for manual topping-off or corrective blending later.
Analytical partners requested more robust documentation during method development. Our QC team introduced improved impurity tracking, delivering clearer benchmarks that analytical chemists reference in both internal and regulatory filings. This means our partners don’t chase their own tails revalidating identity or purity profiles every time they get a new delivery.
Rather than rely on paper trails, our plant managers keep an open line with formulation heads and QC experts at the customer’s site. This fast-tracks issue resolution and keeps product characteristics suited to ever-changing performance and safety standards.
Environmental footprint shapes every stage of specialty chemical manufacturing. Here, solvent recycling, reduced waste routing, and energy optimization became core focus points as our line matured. Not every step ran flawlessly at first; process tweaks and capital upgrades absorbed both cost and time. The pay-off, though, showed up in lowered impurity generation and smaller waste streams—directly benefiting downstream customer filtration and purification steps.
We’ve transitioned from single-use drums to recyclable bulk containers for steady, multi-ton customers, resulting in less on-site disposal for clients and a smaller carbon load for our shipping partner network. Internally, that led to easier tracking of use cycles and better protection against cross-contamination.
By maintaining a feedback-driven process, every bit of incremental improvement doesn’t just help our shop floor; it rolls up into improved, cleaner product and smoother customer supply chains.
4-Hydroxy-3-Methoxybenzyl Nonamide, from a manufacturer’s viewpoint, serves as a living example of how attention to technical, logistical, and end-user details shape outcomes in specialty chemical production. Every batch tells a story—one backed by transparency, long-term client partnership, and deep operational insight. The distinctive, steady warming profile, high purity, reliable physical form, and robust compliance support reflect years of hands-on adjustment and iterative feedback. We see this product’s value reflected in the trust placed in us by both emerging and established clients, shaping how we handle every step from raw material intake through drum closure and shipment. There’s no substitute for a supply partner who stands behind the molecule with first-hand knowledge, continuous process focus, and a willingness to adapt in step with customers. Our ongoing aim is to keep earning that confidence, one application and one delivery at a time.
