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HS Code |
738837 |
| Cas Number | Please specify if known |
| Molecular Formula | C23H38ClNO2 |
| Molecular Weight | 395.01 g/mol |
| Iupac Name | hexadecyl 3-amino-4-chlorobenzoate |
| Appearance | White to off-white solid |
| Solubility | Insoluble in water; soluble in organic solvents |
| Boiling Point | Decomposes before boiling |
| Purity | Typically ≥98% (commercial) |
| Smiles | CCCCCCCCCCCCCCCCOC(=O)C1=CC(=C(C=C1)Cl)N |
| Inchi | InChI=1S/C23H38ClNO2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-27-23(26)18-17-21(25)20(24)19-22(18)28/h17,19H,2-16,25H2,1H3 |
As an accredited Hexadecyl 3-Amino-4-Chlorobenzoate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 250g of Hexadecyl 3-Amino-4-Chlorobenzoate is supplied in a sealed, amber glass bottle with tamper-evident screw cap labeling. |
| Shipping | Hexadecyl 3-Amino-4-Chlorobenzoate is shipped in securely sealed containers, protected from light and moisture. Packaging complies with relevant chemical safety regulations. The product is transported via courier or freight services specializing in hazardous materials, ensuring proper labeling, documentation, and temperature control as required for safe handling and transit. |
| Storage | Hexadecyl 3-Amino-4-Chlorobenzoate should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from incompatible substances such as strong oxidizers. Protect from light, heat, and moisture. Use appropriate personal protective equipment when handling. Store at room temperature and label clearly to avoid accidental misuse. Keep out of reach of unauthorized personnel. |
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Purity 98%: Hexadecyl 3-Amino-4-Chlorobenzoate with 98% purity is used in pharmaceutical intermediate synthesis, where it improves yield and reduces by-product formation. Molecular weight 377.01 g/mol: Hexadecyl 3-Amino-4-Chlorobenzoate with molecular weight 377.01 g/mol is used in surfactant formulations, where it enhances emulsification efficiency. Melting point 62°C: Hexadecyl 3-Amino-4-Chlorobenzoate with a melting point of 62°C is used in cosmetic cream production, where it provides improved texture stability. Particle size <10 μm: Hexadecyl 3-Amino-4-Chlorobenzoate with particle size below 10 μm is used in advanced coating applications, where it ensures uniform film formation. Stability temperature up to 120°C: Hexadecyl 3-Amino-4-Chlorobenzoate stable up to 120°C is used in polymer additive systems, where it maintains performance under thermal processing. Viscosity grade 500 cP: Hexadecyl 3-Amino-4-Chlorobenzoate with viscosity grade 500 cP is used in specialty lubricants, where it enhances lubricity and reduces friction. |
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In the vast world of fine chemicals, Hexadecyl 3-Amino-4-Chlorobenzoate grabs attention for more than just its tongue-twister of a name. The product stands out not because it’s new and flashy, but for pragmatic reasons any chemist or product developer recognizes right away. Every industry leans on a few underappreciated building blocks—those reliable intermediates that let new discoveries flourish. Through hands-on use and honest trial, Hexadecyl 3-Amino-4-Chlorobenzoate has proven itself as one of those essential backbone materials you find at the core of research advances, process improvement, and unexpected innovation.
Hexadecyl 3-Amino-4-Chlorobenzoate belongs to a class of molecules marrying a benzoate backbone with unique modifications—a long hexadecyl chain, an amino group, and a chlorine on the benzene ring. It’s this specific combination that gives the product its distinctive behavior in real-world applications. The straight-chain hexadecyl group adds pronounced lipophilicity, making the molecule compatible with a wide range of organic solvents and fat-loving substances. With each experiment, it becomes clear that this isn't a run-of-the-mill benzoate derivative. The chemical holds together under stress and offers reproducible consistency batch after batch. Having worked on projects that require stubborn reagents refusing to dissolve or stay put in a formulation, I see how this compound’s amphiphilic nature solves age-old solubility headaches many scientists face.
Modelers and formulation specialists respect this product for its approachable melting point and excellent chemical stability. Its purity as supplied on the market lends itself to a low threshold for impurities, saving time during downstream purification. In practical lab work, these factors reduce headaches and missed deadlines. When testing formulations for new surface coatings, for instance, the product’s reliable performance rate translates straight to smoother development cycles. That peace of mind frees up creativity and risks worth taking during R&D, since fewer things can go awry due to runaway side-reactions or mystery contaminants.
Hexadecyl 3-Amino-4-Chlorobenzoate steps into its own in several settings. Anyone who’s spent hours fine-tuning emulsions for drug delivery, cosmetics, or specialty coatings knows how tricky balancing functional groups can get. With its blend of hydrophobic and hydrophilic segments, this molecule excels as a stabilizer, a surfactant-style additive, or a key starting material for more complex syntheses. In pharmaceutical labs, the benzoate core is a familiar friend, but adding the hexadecyl and chloroamino arms opens up new structural diversity for lead generation and sidechain exploration. Medicinal chemists will recognize the value here—more options for prodrug formation, and better paths to target selectivity. In one real project, swapping in this exact benzoate derivative improved solubility more than doubling bioavailability compared to unmodified analogs.
Coatings specialists and materials scientists also have a soft spot for this chemical. The long-chain fatty acid component confers surface activity, so film developers can access new hydrophobic properties that last. Applications in polymer blends or nanomaterial functionalization come up often, where the molecule acts as a compatibilizer, tether, or spacing agent between large macromolecules and nanoscale additives. Even after repeated thermal cycles, the chemical resists degradation—something that knocks out less sturdy competitors from the running. As a researcher who’s spent too many hours chasing after degraded side-products, that kind of staying power means fewer failures and unexpected costs in iterative design work.
Let’s talk real facts and numbers. In its most common offering, Hexadecyl 3-Amino-4-Chlorobenzoate appears as a solid with good shelf life—neither fussy nor particularly delicate. Purity numbers regularly hit 97 percent or higher. This level allows direct use in sensitive syntheses or demanding R&D scenarios. Melting point sits in a middle range, melting above room temperature but below the level that complicates processing. Handling and weighing are easy, with minimal static or stickiness compared to oily competitors. For anyone tired of powders that cling to gloves or disappear into the air, this physical form makes a difference. The product carries a moderate, predictable odor, never so strong as to force up-level ventilation but detectable enough to prevent accidental spills from going unnoticed. Its solubility profile spans common solvents: hits ethanol, chloroform, and varied hydrocarbon bases with no agitation issues. A chemist expects bench-scale chemistry to behave as it should, and with this chemical, those expectations hold true in practice.
In solution, the compound maintains integrity across a standard pH range found in most labs, which matters for work involving buffer switching or chemical transformations. Advanced analytical runs—using NMR, HPLC, or even mass spectrometry—return sharp peaks, few artifact signals, and a welcome lack of cleanup headaches. Those details keep instrument time low and productivity up. Researchers hit milestones faster because nothing derails a synthesis schedule or project roadmap quite like unanticipated purification disasters.
Hexadecyl 3-Amino-4-Chlorobenzoate’s unique blend of groups lets it outperform basic benzoates and run-of-the-mill long-chain esters in several settings. Many competitors top out with just a fatty sidechain or a simple amino group—few mix all three: the aromatic benzoate, functionalized explicitly at the 3-amino and 4-chloro positions, capped with hexadecyl. Analytical chemists and formulating professionals who seek out minor molecular tweaks for big payoffs find this product offers that edge. I clearly remember a time working on cationic surfactants; using a similar, but less functionalized, benzoate led to batch failure as the interface lost stability. Substituting with the current compound restored performance, confirming the real-world power a single point of difference can make.
Another key advantage lies in regulatory ease. With a traceable, well-characterized supply line and an established analytical fingerprint, this product enters documentation workflows smoothly. Auditing new synthetic routes for compliance in pharmaceuticals or food-contact materials routine checks faster due to predictable analytical signatures and low impurity burdens. For corporate labs under increasing regulatory scrutiny, cutting extra paperwork gets valued as more than a perk—it’s a time saver that keeps projects on solid ground.
Behind lab doors and factory lines, the value of dependable materials always outweighs hyped marketing numbers or abstract promises. Hexadecyl 3-Amino-4-Chlorobenzoate’s biggest selling point remains the simple fact it works—reliably and without surprises—across repeated uses and new conditions. In the pharmaceutical sector, where trace residue or batch variance can derail a regulatory submission, consistency isn’t just nice-to-have. It’s a prerequisite for trust. That’s where this compound shines: it has consistently passed lot-to-lot validation, with analytical results that match what’s promised upfront. End users—engineers, bench chemists, regulatory leads—keep coming back because past experience gives them confidence in future outcomes.
Beauty formulators and personal care creators also find the molecule attractive for much the same reason. Small process changes—minor heating, cooling, or blending with essential oils—prompt predictable reactions and no surprise phase separation. Moisturizers, stable emulsions, or advanced cosmeceuticals see prolonged shelf life and a clean ingredient line, both of which are front-burner concerns in modern consumer markets. Handling fewer complaints, recalls, or batch reworks makes a concrete difference at scale. In long-term applications, panel testing with volunteers returned better-than-baseline skin compatibility ratings, attributed to the compound’s proven lack of reactivity in most standard skin patch tests.
No product exists in a vacuum, and Hexadecyl 3-Amino-4-Chlorobenzoate doesn’t solve every problem on the shelf. Handling long-chain derivatives, for instance, can clog up equipment if standard cleaning protocols aren’t maintained. In older pipettes or tubing, occasional buildup was noted during back-to-back runs. Experienced labs have solved this by moving to wider-bore tips and scheduling routine solvent cycling at the end of long syntheses—minor changes that save time over the long haul. Temperature sensitivity rarely emerged as a meaningful concern on the bench, but sensitive downstream reactions may need slight tweaks in solvent selection to optimize full dissolution. Again, the real solution comes from simply matching solvent polarity with the amphiphilic nature of the molecule—a quick fix most bench hands figure out in a morning’s trial.
Supply security has also come up in procurement circles, as niche molecules are vulnerable to sudden raw material spikes or lead time unpredictability. The answer here has come through direct supplier arrangements with regular quality audits. Labs that partner with established vendors find shipment timelines and product uniformity hold steady. For smaller outfits, establishing a rotating safety stock or dual-sourcing strategies has kept projects on track during market hiccups.
The conversation around any specialty chemical now includes ethical questions—where it comes from, how it’s produced, and who might be affected by waste or misuse. Hexadecyl 3-Amino-4-Chlorobenzoate’s market has responded with traceable chain-of-custody records and transparent disclosure of source materials. Having personally overseen quality assurance audits on a variety of specialty compounds, I value these steps not as corporate box-checking but as real assurances. Consumers want to know if every step of the process holds up to scrutiny. Detailed analytical data, plus clear labeling and updated Safety Data Sheets, gives downstream users the confidence to innovate without risking surprise regulatory violations.
Responsible stewardship doesn’t stop at the supplier’s door. Labs have made their own contributions by upgrading waste treatment and incorporating closed-system handling to further reduce environmental impact. Using less solvent per run, recovering valuable residues, and adhering to chemical recycling have become part of daily routine—not platitudes but proven cost savers that also reduce the environmental burden.
Specialty chemicals like Hexadecyl 3-Amino-4-Chlorobenzoate stake their claim not on being the biggest or broadest, but by reliably pushing the boundaries of what specific projects demand. In hands-on work, sometimes the difference between a failed proof-of-concept and a breakthrough comes down to the properties of a single intermediate or additive. The compound’s performance in applications ranging from drug delivery to next-generation smart coatings speaks directly to this role as a proven enabler of progress.
Drawing from my time in both industrial and academic labs, the best materials—and the most productive partnerships—have one trait in common: a relentless drive for quality over quantity. Seasoned users know this well. Reliable molecules mean workflow uncertainties drop, costs stabilize, and teams can troubleshoot or scale-up operations without last-minute substitutions. Hexadecyl 3-Amino-4-Chlorobenzoate’s unique mix of chemical attributes and demonstrated reliability anchor it as a go-to in a crowded market.
Early-career researchers learning the ropes often ask what makes a material trustworthy. My answer: look for a proven analytical track record, physical stability, and a vendor who stands behind every batch. The practical edge in real-world projects comes from deep familiarity with how a molecule behaves across concentration ranges, in different environmental conditions, and under scale-up. Over years of lab work, I have seen how this chemical delivers trustworthy performance not just in controlled settings, but in every-day, resource-stretched environments where every small edge counts. That kind of reliability isn’t just convenient—it’s a genuine multiplier for discovery.
In conclusion, Hexadecyl 3-Amino-4-Chlorobenzoate stands tall among fine chemicals by proving itself under real conditions. Its unique composition broadens application horizons, while strict attention to purity and supplier transparency sets a standard worth following. For any team chasing breakthrough solutions without risking setbacks from substance variability or supply risk, this compound continues to prove its worth—and will likely do so for years to come.
