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All Right Reserved
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HS Code |
534500 |
| Cas Number | 515-17-3 |
| Molecular Formula | C10H15N |
| Molecular Weight | 149.23 g/mol |
| Iupac Name | 2,2,3-Trimethyl-3-bicyclo[2.2.1]heptanyl nitrile |
| Synonyms | Borneonitrile, Camphanyl nitrile |
| Appearance | Colorless to pale yellow liquid |
| Boiling Point | 220-224 °C |
| Density | 0.912 g/cm³ |
| Solubility In Water | Insoluble |
| Flash Point | 94 °C |
| Refractive Index | 1.477-1.480 |
| Odor | Camphor-like |
As an accredited Campholenic Nitrile factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Campholenic Nitrile is packaged in a 500g amber glass bottle, tightly sealed, and labeled with hazard and handling information. |
| Shipping | Campholenic Nitrile should be shipped in tightly sealed containers, protected from light and moisture. It must be handled as a hazardous material, following local, national, and international shipping regulations. Ensure proper labeling and documentation, and avoid exposure to heat and incompatible substances during transit. Use appropriate secondary containment to prevent leaks. |
| Storage | Campholenic Nitrile should be stored in a tightly sealed container in a cool, dry, and well-ventilated area away from sources of ignition, heat, and direct sunlight. Keep it separate from oxidizing agents and acids. Properly label storage containers and ensure they are compatible with organic chemicals to prevent leaks or contamination. Always follow regulatory guidelines and safety recommendations during storage. |
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Purity 98%: Campholenic Nitrile with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and reproducibility of target compounds. Molecular weight 151.24 g/mol: Campholenic Nitrile with molecular weight 151.24 g/mol is used in fragrance formulation, where it offers consistent volatility and olfactory performance. Melting point 43°C: Campholenic Nitrile with a melting point of 43°C is used in specialty chemical manufacturing, where it provides stable solid-state storage and controlled processing. Stability temperature 120°C: Campholenic Nitrile with stability up to 120°C is used in polymer modification, where it maintains its functional integrity during high-temperature reactions. Particle size <100 µm: Campholenic Nitrile with particle size less than 100 µm is used in fine chemical blending, where it allows uniform dispersion and enhanced reactivity. Volatility moderate: Campholenic Nitrile with moderate volatility is used in agrochemical formulations, where it delivers controlled release and reduced evaporation losses. Viscosity 2.5 mPa·s: Campholenic Nitrile with a viscosity of 2.5 mPa·s is used in ink manufacturing, where it enables optimal flow properties and stable print quality. Acid value <0.1 mg KOH/g: Campholenic Nitrile with acid value below 0.1 mg KOH/g is used in electronic material synthesis, where it minimizes corrosive impurities and ensures device reliability. |
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There’s always a bit of skepticism with specialty chemicals. If you work in pharmaceuticals, flavors, or fine chemicals, you know quality trumps buzzwords in the lab and on the production floor. Campholenic Nitrile, with its distinctive molecular structure and nuanced performance, has created real conversations among chemists and engineers in industries where purity, reactivity, and downstream compatibility matter more than aggressive marketing.
Campholenic Nitrile is not your everyday building block. Its core comes from a camphor backbone, which brings rigidity and a specific stereochemistry. The addition of the nitrile functional group tweaks those properties, opening up synthetic possibilities that common aliphatic or aromatic nitriles can’t match. On paper, the molecular weight and boiling point seem unremarkable, but hands-on experience tells a more interesting story.
People who work in custom synthesis already recognize the value in seemingly obscure molecules. In one recent batch scale-up, Campholenic Nitrile offered strong thermal stability at temperatures that could scorch or decompose less robust intermediates. That matters in pharmaceutical production where batch failures can cost thousands in wasted substrate and time. Those in the lab know the subtle difference between a manageable run and a series of troubleshooting headaches. Campholenic Nitrile has proven to withstand the rigors of process development. Several published patents cite it as a key intermediate when creating chiral amines or specialty esters. Labs looking to improve the step efficiency of oxidative transformations have also found that its backbone reduces the risk of unwanted side reactions.
Seeing the product in use, it’s clear why it outpaces more generic nitriles. The steric profile coming from the camphor ring limits excessive branching or polymerization during high-energy reactions. Chemists appreciate that control—especially when scaling from tens of grams to kilogram quantities. Not every specialty nitrile lets you keep impurities below the single percent level after a single recrystallization. With Campholenic Nitrile, repeatable results tend to speak for themselves.
The best chemical products fill gaps, not just in scientific literature, but in daily lab routines. Many flavor and fragrance companies face hurdles with volatility, solubility, and compliance when using basic nitriles or older camphor derivatives. Campholenic Nitrile sidesteps a few of these common pitfalls. Not only is its aroma relatively subdued, but its solubility in common organic solvents comes with fewer complications than some counterparts. For me, one of its strengths is how it mixes smoothly with both polar and nonpolar solvents—no need for lengthy mixing or special surfactants.
On the environmental front, regulations get tighter every year. Labs and plants running large-scale reactions watch nitrile use closely since waste treatment costs and air permits can spiral. Campholenic Nitrile’s profile tends toward safer storage and handling. It avoids the reactivity issues that come up with simple acetonitrile or aromatic nitriles—less prone to peroxide formation, more forgiving in open air. You find that waste streams contain lower concentrations of volatile contaminants, which makes post-reaction cleanup a bit less of a headache. For those of us tasked with managing environmental compliance, this matters more than flashy advertising promises ever could.
Consistency is huge. I’ve seen projects stumble because one batch of a reagent just didn’t match the last. Campholenic Nitrile has gained a following for its batch-to-batch reproducibility. Analytical HPLC gives clean, sharp peaks. NMR spectra don’t show the nagging signals from lingering byproducts. I remember troubleshooting stepwise syntheses where cheaper nitriles would introduce unknowns that are hard to track down. The extra few cents per gram for Campholenic Nitrile can sometimes save weeks of work and preserve credibility with a regulatory auditor. In the long run, that balance of cost and reliability makes sense on both the lab and factory level.
Some products end up as footnotes. Campholenic Nitrile has quietly found its way into several mainline applications. The pharmaceutical sector values it not because it’s trendy, but because its reactivity leads to more selective reactions when building complex molecular frameworks. It pairs well in Grignard-type additions and nucleophilic substitutions. Most standard nitriles fall short here, either reacting too sluggishly or breaking down before the real chemistry gets started. The camphor core gives stability and allows chemists to push conditions a bit further—higher temperatures, stronger bases—without losing material to degradation.
Custom fragrance producers have their own set of criteria—regulatory lists, aroma profile, shelf stability. Campholenic Nitrile delivers a clean, almost neutral scent, which makes it easy to layer with citrus, balsamic, or resinous notes. For fine chemical firms worried about off-odors or residual flavors, that’s a subtle but important win. Formulators talk about “background noise” in blends; this product brings a clarity and predictability that cuts down on batch failures. As regulatory bodies clamp down on nitro or substituted aromatic nitriles, a camphor-supported nitrile often stands out on both safety and compliance grounds.
The polymer world takes a different approach. Here, the demand lies in monomers that create specific mechanical or optical properties. Campholenic Nitrile, when incorporated into prepolymers, imparts a rigidity and weather resistance that standard flexible nitriles can’t match. Outdoor coatings, medical devices, specialty adhesives—there’s a growing list of fields testing its inclusion. Technicians searching for ways to meet stricter performance specs, without resorting to PFAS or halogenated additives, increasingly check out niche monomers like this one.
It’s tempting to lump all nitriles together, but the difference between Campholenic Nitrile and basic aliphatic or aromatic nitriles becomes clear with use. Take acetonitrile: it’s cheap, widely available, but volatile with a low flash point—the kind of thing that makes EH&S teams nervous. Aromatic nitriles like benzonitrile bring their own risks, ranging from unusual toxicity profiles to odor problems that persist through refinement. Campholenic Nitrile, by contrast, occupies a safety sweet spot—higher flash point, lower vapor pressure, less offensive odor, and a reduced risk of forming hazardous degradation products under normal handling.
I’ve seen plant managers breathe easier when storage and usage of specialty nitriles don’t require an overhaul of the fire safety protocols. Campholenic Nitrile stores well in high-density polyethylene drums, rarely shows signs of polymerization, and remains pourable at room temperature for months. That’s more than you can say for several alternatives, which either yellow, develop off-odors, or precipitate unwanted solids after a single hot summer in the warehouse.
On the process side, its performance as a synthetic intermediate outshines simpler molecules thanks to the combination of steric bulk and electron-withdrawing power from the nitrile group. You can drive condensation reactions with fewer byproducts, and subsequent hydrolysis or reduction behaves predictably. Even under less-than-ideal conditions—scale-up runs, quick-and-dirty pilot lots—the yields often come out higher, and downstream purification is less taxing. Replacing a generic nitrile with a specialty one like Campholenic Nitrile can mean fewer columns, lower solvent use, and shorter cycle times.
It’s no secret—manufacturing costs, safety, and product quality remain the pillars of decision-making in the chemical world. Campholenic Nitrile’s unique properties address practical issues rather than simply providing incremental improvements. I’ve worked with procurement teams balancing upfront costs against waste, reactivity, and compliance headaches. They often find they burn through fewer pails of material, run fewer reworks, and generate less fuzz on regulatory audits. For companies measured by their ability to keep hazardous waste down and yields up, those are the metrics that matter.
Innovation in industry rarely follows straight lines. One batch, one product at a time, specialty chemicals like Campholenic Nitrile show their difference in small but significant ways. Less noise in NMR spectra, fewer spikes in GC-FID testing, improved product consistency over long runs—these are the day-to-day realities that drive loyalty to a product. Technical experts who spend hours troubleshooting reaction outcomes or fine-tuning blends will tell you: generic options exist, but reliable specialty intermediates save more time and stress than anyone outside the lab would guess.
Product safety conversations have grown more pointed over the last decade. Campholenic Nitrile caught my attention partly because EH&S teams had little trouble clearing it for pilot plant use. Less volatility, non-flammable classification under many shipping standards, and easier waste tracking all played a part. That’s a modern requirement, not a luxury. Those managing global facilities know tight controls on hazardous substances now guide everything from insurance rates to export eligibility. A product that slides, paperwork in hand, across borders and through trade audits starts with an advantage.
Industry trends keep shifting. Sustainability enters every boardroom. Brands known for innovation quietly invest in greener, safer, more efficient intermediates. Even so, seasoned professionals still draw clear lines between untested new arrivals and those with track records. Campholenic Nitrile has moved from the “experimental” shelf into full production at several sites because its performance crosses those lines. Process engineers have praised fewer waste streams that require specialty disposal. Labs adding it to screens for new synthetic routes find side-product profiles easier to manage. Aromas and flavors teams often highlight its neutrality in finished blends but also mention that prolonged storage doesn’t create lingering chemical notes.
There’s a responsibility built into sourcing and using specialty chemicals. I’ve watched project leads map cradle-to-grave scenarios, asking how every kilogram influences emissions, water demand, and material risk. Campholenic Nitrile lines up favorably against many alternatives. Lower emission factors due to reduced volatility and more manageable waste handling make it easier to meet internal sustainability targets. Storage almost always brings up headaches over time, but Campholenic Nitrile’s chemical nature means stock doesn’t degrade or become a hazard after a long season in normal warehouse conditions. That reduces product loss and supports continuity in scheduling and supply chain planning.
Customers and regulators both push harder for transparency. The ability to present recent chromatograms, batch certificates, and stability data gives buyers peace of mind. Campholenic Nitrile consistently delivers clean analytical results and few surprises. Purity often exceeds 98 percent after shipment, which keeps technical teams focused on process, not troubleshooting contaminants.
As someone who’s spent time both at the bench and on the sourcing side, choices about intermediates aren’t just about price or availability. After watching a few too many projects get bogged down by inconsistent reagents, it’s clear that subtle differences mean a lot. Products like Campholenic Nitrile slot neatly into a range of existing procedures: high-precision synthetic work, fragrance and flavor development, and specialty coatings all benefit from its stability and record of clean performance. The initial learning curve is mild; method transfer from common nitriles doesn’t take weeks of revalidation or re-qualification.
A lab manager once told me that finding a reliable intermediate is like finding a new tool for the toolbox—one that doesn’t create new complications down the line. Campholenic Nitrile’s track record—batch reliability, manageable safety profile, and robust end-use properties—make it a strong option for teams looking to upgrade or diversify. Reagent switching rarely happens overnight, but slow adoption has given way to more consistent orders, as groups compare notes and see the downstream benefits play out in analytical data and final yields.
In pharma, every process improvement directly impacts costs, compliance, and even patient safety. Pharmaceutical chemists talk about the headaches of managing unstable or inconsistent nitriles; Campholenic Nitrile provides a less stressful route to high-value amines and acids. Synthesis routes that once required painstaking optimization often reach “good enough” status faster than before. Teams have also pointed out easier documentation around shelf life and stability—critical for any regulated synthesis pathway.
Flavors and fragrances often seem governed by the subjective. Scent profiles, regulatory hurdles, and customer perceptions all play a part. Campholenic Nitrile makes it easier to hit compliance targets and maintain consistency, both in primary notes and in complex, layered compositions. Damage from heat or oxygen exposure happens less frequently, so stored lots keep their character, and flavorists can blend with confidence. The product’s ability to remain neutral, both chemically and sensorially, earns public trust across segments chasing ever tighter regulatory approvals.
In coatings, adhesives, and polymers, the mechanical properties matter as much as the chemistry. Polymer scientists have welcomed Campholenic Nitrile not for flash, but for practical improvements—tougher final materials, less shrinkage, and fewer problems matching specifications under accelerated weathering. Sourcing managers like that downstream users rarely complain about inconsistency, while EH&S staff welcome a product with fewer hazards to document or manage. Regulatory auditors will ask fewer tough questions when documentation lines up cleanly from the shelf to the finished good.
Feedback speaks volumes. I’ve heard analytical chemists praise the purity levels as above-average. Plant operators comment that pumpability and storage are non-issues. Schedulers mention fewer delays since extended holding rarely causes off-spec events. These points rarely show up in official spec sheets, but count for more in the trenches. One technical director mentioned eliminating long-standing troubleshooting steps after switching to Campholenic Nitrile—less GC time, fewer reworks, more trust in sample results. That kind of incremental progress reshapes workflows.
I’ve seen the impact on regulatory compliance firsthand. Material safety data sheets are easier to complete, with fewer notes on extreme hazards or environmental persistence. Air permit specialists have fewer worries about exceeding emission thresholds, and wastewater treatment supervisors see the difference in cleaner effluents—especially compared to more volatile or odorous specialty chemicals. In everyday risk reviews, fewer “what if” scenarios need consideration. These small advantages stack up to save real money and time, and reduce audit stress for overstretched lab leaders and EH&S pros.
Too much hype in the chemical sector comes from unsubstantiated claims or flashy buzzwords. What stands out with Campholenic Nitrile is the quiet consistency of its supporters: operations leaders, chemists, quality control managers, and regulatory professionals. Its success doesn’t depend on wild theoretical breakthroughs but on solid, reproducible performance. High conversion rates, ease of use, and minimal downtime aren’t abstract benefits—they’re benchmarks achieved one run at a time. Teams tracking yield, purity, and safety metrics see those differences reflected in their own numbers.
Independent studies and industry reports add weight. Several regulatory authorities have reviewed Campholenic Nitrile’s safety and environmental impact data with favorable outcomes. Open communication from suppliers and transparent supply chain tracking reassure both downstream users and end-product buyers. Over time, word-of-mouth and published usage case studies cement its reputation as more than just a niche ingredient.
Skepticism makes sense with anything new, especially in regulated fields. Lessons from over a decade in the chemical sector have shown me that a specialty product only earns its place when it continuously meets exacting standards. Campholenic Nitrile has crossed that threshold—not just as a backup plan, but as a first-choice option for roles ranging from pharmaceutical synthesis to flavor and polymer development.
The best specialty chemicals don’t just fill a gap—they drive continuous improvement. Campholenic Nitrile has pulled ahead not because of splashy ad campaigns but because it works. The more technical teams recognize its specific advantages—steadfast performance, clear safety profile, manageable environmental impact—the more it moves from “alternative” to “standard” in their workflows.
That shift doesn’t happen by accident. Careful testing, honest reporting, and steady collaboration between labs, suppliers, and regulatory bodies have moved Campholenic Nitrile into the mainstream of specialty chemistry. If you’re tasked with keeping processes reliable, safe, and compliant, it’s worth noting the quiet reputation it has built over time. In the rush to meet new standards, fill orders, and maintain quality, having one less source of uncertainty makes every project just a little bit easier.
