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Scent tells stories long before words reach us, and Cyclamen Aldehyde has written some of its own since the early 20th century. Chemists searching for new fragrances in the bustling aftermath of industrialization discovered Cyclamen Aldehyde’s crisp, floral profile almost by accident. Perfume houses wanted fresher and longer-lasting floral notes for a new breed of synthetic blends. The molecule cropped up as a solution and quickly grew in popularity. Industry journals from the 1920s mention this compound among the innovations transforming how the world smelled everyday products, paving the way for a new chapter in fragrance chemistry.
Cyclamen Aldehyde steps into formulas with the scientific name 3-(4-Isopropylphenyl)-2-methylpropanal. You’ll often find it labeled for its powdery, sweet-floral, and lightly green scent—something that’s often described as fresh linen on a spring morning. Manufacturers count on it to brighten up room sprays, colognes, air fresheners, cleaning supplies, soaps, and even flavored goods. It’s the quiet hero behind that “just cleaned” feeling, showing up reliably across categories, delivering charm and strength in small doses. Trade names such as Cyclamal and Rosamox fill regulatory documents and shipping orders; the market stakes high value on defining and controlling its quality.
Hold a sample up to the light, and you’ll see a clear, pale yellow liquid with a faint density slightly above water, around 0.98 g/cm³. Cyclamen Aldehyde’s boiling point sits at roughly 270–280 °C, which makes it stable under most storage and usage conditions. Its refractive index lands at approximately 1.516, not far from other modern fragrance aldehydes. Chemists recognize its aromatic backbone and tightly controlled aldehyde group as keys to both olfactory appeal and performance in blends. It dissolves easily in alcohol-based mediums, allowing perfumers and flavorists to work flexibly.
Labeling in this industry carries weight, not only for compliance but for health and safety. Chemical Identity includes CAS number 103-95-7 and the EINECS number 203-161-7. Most technical specification sheets cite a purity of greater than 98%, minimal acidity, and clear absence of heavy metals or hazardous solvents. Good suppliers always include detailed chromatogram profiles and trace analysis certificates. On finished products, regulatory markings note both common and IUPAC names and list it among potential sensitizers—no one can afford oversights when regulations keep shifting across global markets.
Large-scale production leans heavily on Friedel–Crafts alkylation. Chemists use p-isopropylbenzaldehyde mixed with isobutyraldehyde in the presence of Lewis acids, running this reaction under controlled temperatures to guide efficiency and safety. Distillation and multiple-phase liquid extraction round out the process, securing the highest yields possible from each batch. In smaller or research-scale preparations, variations swap in different catalysts or solvents—laboratories want flexibility and rapid iteration, so fine-tuning becomes central to reducing byproducts without compromising purity.
Reactivity centers on the aldehyde group, inviting condensation with amines or alcohols, and hydration under mild conditions. Hydrogenation smooths out the carbonyl, giving access to derivatives with new fragrance notes. Creative chemists can tweak the backbone, switching the isopropyl or methyl group for subtle shifts in odor and stability. Some laboratories experiment with oxidation for carboxylic acid forms, though changes in physical properties limit broader adoption. Cyclamen Aldehyde’s stability wins trust among formulators, resisting oxidation or polymerization during long-term storage, even in light or warm environments.
Cyclamen Aldehyde travels on paperwork under many banners: alpha-Methyl-p-isopropylcinnamaldehyde, p-Isopropyl-alpha-methylcinnamaldehyde, and 3-(para-Isopropylphenyl)-2-methylpropanal. Each name pops up in different market segments and geographical zones. The major fragrance ingredient suppliers often brand it as Cyclamal, Floropal, or Rosamox, each claiming subtle distinctions in starting materials or purification techniques. For compliance and export, every package must clarify synonyms and trade names, since oversight in customs regulations can cost weeks of shipment delays.
Anyone handling Cyclamen Aldehyde must pay close attention to inhalation and direct contact standards; it triggers skin or eye sensitivity at concentrations far lower than its odor threshold. Safety data sheets require full PPE—nitrile gloves, goggles, and well-ventilated workplaces. Storage demands darkness, cool temperatures, and tightly sealed containers—exposure to air or light risks slow degradation or color changes, which spells trouble in precise fragrance work. Occupational safety bodies have set limits, and Europe especially requires robust labeling under GHS/CLP. Markets today want clear, up-to-date hazard and precaution statements on every drum and sample vial.
Touch nearly any shelf of home or personal care goods and trace the faint trail of Cyclamen Aldehyde. The molecule shows up in detergents and surface cleaners, sketching out a clean background note. Its true calling lies in fine perfumery and body sprays, threading together fruit and floral themes. Many air care products rely on its brightness to cut through musty basenotes in diffusers or plug-in fresheners. Flavors and beverages sometimes reach for it, especially in low concentrations to pull out top notes in berry or tropical mixes. Veterinary products and pet care sprays count on its low reactivity and lack of persistent residues for odor control. Its versatility reflects decades of sensory research and real-time consumer feedback.
R&D teams dig into Cyclamen Aldehyde’s shelf life and molecular stability, mapping how it reacts with air, light, or other formula components. Analytical labs use advanced gas chromatography and mass spectrometry to fingerprint this molecule in complex fragrance matrices. Consumer testing pinpoints the sweet spot for perception; too much, and it can overpower, too little, and the freshness vanishes before the bottle is half-empty. Researchers also chase derivatives with lower allergenic potential or altered volatility—each tweak aims for performance improvements and safer profiles. Licensing new proprietary blends and ensuring patent compliance stretches out into collaborations between academia and industry, blending basic science with market-driven innovation.
Toxicologists work to quantify exposure thresholds for Cyclamen Aldehyde using in vitro assays and controlled animal studies. Regulatory evaluations from bodies like the IFRA set clear-use concentrations across product categories, aiming to avoid adverse reactions in sensitive populations. Patch tests and structure–activity relationship modeling feed into public databases; manufacturers run repeated-dose and sensitization studies to cover liability and protect consumers. Entry onto “safe to use” ingredient lists depends on heavy evidence and periodic review. Some research looks at aquatic toxicity and breakdown products, since wastewater disposal of household scents adds up worldwide.
Future demand for Cyclamen Aldehyde ties closely to shifts in consumer priorities—everyone wants clean scents, but not at the cost of safety or sustainability. Biotechnological approaches, like yeast fermentation or engineered plant cell cultures, could supplement traditional synthesis and cut down on petrochemical use. Green chemistry innovations, aimed at lower energy requirements and less hazardous waste, will likely steer how this class of molecule reaches the mass market. Ongoing research will focus not only on modifying odor profiles but reducing allergenicity and improving degradability. As the lines blur between personal care and health-conscious lifestyle goods, fragrance designers and regulatory agencies watch every development, knowing there's a fine balance between nostalgia, novelty, and necessity.
Step into a supermarket or department store, and cyclamen aldehyde is already working in the background. It slips into liquid detergents, shampoos, soaps, and air fresheners, lending a softly floral scent. I remember scanning the ingredients on a bottle of popular shower gel, searching for something exotic. Instead, I found this name, tucked between other fragrance ingredients. This compound brings the light, powdery presence that makes a product smell “clean” instead of overwhelming.
Cyclamen aldehyde tastes of the everyday in the fragrance industry. While perfumers might prefer attention-seeking notes, they turn to cyclamen aldehyde for reliable performance. It layers with citrus, woods, and spice, filling out a scent without hogging the spotlight. Large-scale brands trust it to keep their products consistent from batch to batch.
Backed by decades of research and safe usage allowances, cyclamen aldehyde often gets the “green” light from regulatory bodies. While some folks report allergies or sensitivities, major safety reviews show that, at regulated levels, this ingredient stays nonreactive. Those who design fragrances learn quickly that ingredient safety isn’t a detail to gloss over. Too many customers pay attention now to what goes on their skin or in their homes.
Cyclamen aldehyde doesn’t just show up in perfumes. It gives a modern twist to room sprays and candles, mingling with other light floral notes like lilac or muguet. Many brands also use it in deodorants, both roll-on and spray forms, for a scent that feels crisp and not too layered. Sometimes, it even lands in personal care products that steer clear of the “fragrance” label—think unscented creams or baby wipes. In these, ultra-low dosages do the trick, masking odors rather than creating a new one.
Ask any chemist, and they’ll tell you that synthetics keep costs predictable and supplies stable. Cyclamen aldehyde, made from chemicals found in lilac or cyclamen, costs far less than harvesting natural flowers. For families like mine, shopping on a budget, this means that affordable products can still feel “fresh” and pleasant. Without this ingredient, brands would raise prices or cut back on that comforting clean scent.
People worry about synthetic chemicals, and those concerns deserve real attention. The International Fragrance Association sets strict usage limits and monitoring. Some companies pledge to swap synthetic scents for essential oils, but cost and stability hold them back. Essential oils can trigger allergic responses just as much as synthetics do, and batch-to-batch variability causes trouble on the production line.
As consumers stop taking ingredients at face value, more brands now label their use of cyclamen aldehyde. Apps and websites rate products for ingredient transparency, helping people who already know what they react to. Families with sensitive skin benefit when companies publish safety data and listen to consumer feedback.
In a world chasing clean beauty and mindful living, the reality is messier than a scented commercial. Cyclamen aldehyde keeps our everyday cleansers, soaps, and fresheners affordable and familiar. Listening to customers and providing clear safety information moves the conversation past fear and marketing, toward real choice. That’s what I look for every time a scent makes my day brighter or my allergies flare.
Cyclamen aldehyde has become a familiar ingredient in the world of fragrances. Its fresh, floral scent crops up in soaps, perfumes, and sometimes even body creams. Few people know this compound comes from a family of chemicals that mimic the aroma of cyclamen flowers. Companies blend it into everything from laundry detergents to deodorants. This widespread use raises a real question: how safe is cyclamen aldehyde for our skin?
Most people just want to know if a product will make their skin itch, break out, or cause a rash. The truth is, science has answers, though they are not always simple. Cyclamen aldehyde made its way into perfumery decades ago. Researchers have run patch tests and observed reactions. The broad consensus in peer-reviewed journals shows cyclamen aldehyde typically lands in the category of low-risk fragrance ingredients. The International Fragrance Association (IFRA) lists it in its global standards, and the US Food and Drug Administration recognizes it as safe for use in cosmetics.
That’s the general story, but real-world experience matters. Some people do complain about redness or irritation when using scented skin care, and cyclamen aldehyde sometimes gets the blame. Those who are genuinely sensitive to fragrances might react. The European Cosmetics Regulation (EC) No 1223/2009, for example, requires manufacturers to list fragrance allergens. Cyclamen aldehyde avoids the list of the 26 recognized fragrance allergens which means regulators haven’t seen enough reactions to raise a red flag. Still, just because it doesn’t show up on that short list doesn’t make it entirely benign for everyone. It comes back to personal sensitivity—sort of like how a peanut can send some people to the ER while most folks have no trouble at all.
From personal experience, scented soaps and lotions can mess with sensitive skin. Over the years, I have spoken with dermatologists who recommend fragrance-free products to people dealing with eczema, psoriasis, or frequent skin flare-ups. Cyclamen aldehyde rarely comes up in their top concerns, but they admit any fragrance carries a sliver of risk. The lesson from doctors and seasoned skin care fans is to patch test a new product on a small area first.
Community groups and online forums often swap tips about avoiding breakouts and irritation. Cyclamen aldehyde’s presence in ingredient lists turns up now and then, though not as a big villain. People concerned about long-term exposure should take note of how often they use scented creams and body washes—and maybe swap in a fragrance-free version to give skin a break. This is doubly important for babies, older adults, or anyone whose skin already struggles with dryness or inflammation.
Brands follow rules set by health authorities to keep cyclamen aldehyde levels in safe territory. But ingredient transparency gives customers a chance to make their own call. Reading the label gives power back to you—if you find cyclamen aldehyde doesn’t agree with your skin, ditch it for something plainer. The science leans safe for most, but it leaves room for caution: if your skin seems angry, don’t ignore it. Seek advice from a dermatologist and try to keep it simple. Clean, gentle products offer a small luxury in a world full of options, so don't be afraid to make the switch if that’s what your skin is asking for.
Cyclamen aldehyde brings a sweet, floral aroma to personal care products that’s hard to ignore. Perfumers count on this synthetic compound for notes that evoke a garden after a gentle rain. Everyday products, like shampoo, lotions and deodorants, get their signature blossoms from this very ingredient. Big brands rely on cyclamen aldehyde for two reasons: its scent feels clean, and it sticks around. Most natural floral extracts can lose their punch once exposed to air or sunlight, cycling through oxidations that leave only a faint memory behind. Cyclamen aldehyde doesn’t fade so quickly. A tiny dose makes consumer products smell fresh until the bottle runs dry. In my own experience working with scents, customers often return to products they identify with a familiar fragrance. That loyalty feeds directly from moments created by compounds like cyclamen aldehyde.
Few people talk about the chemistry behind room sprays, candles, and cleaning agents. Companies need scent molecules that blend cleanly with water or alcohol. Any good fabric spray uses a stable ingredient that doesn’t break down on the shelf, or stain the laundry. Cyclamen aldehyde brings persistence, masking odors in kitchens, bathrooms, and pet areas. It helps the fragrance last on curtains and sofas, often outperforming essential oils by a long shot. My time spent researching air care products showed me that consumers judge quality by the first whiff from the bottle. Give people a welcoming scent, and that space feels like home—rather than yesterday’s takeout.
Fragrancing isn’t only about pleasure. In pharma and personal care, it’s about hiding harsh odors of active ingredients. Cyclamen aldehyde slides into creams and ointments, covering medicinal notes that nobody wants on their skin. Formulators like it because it doesn’t react with most drugs or preservatives. With synthetic compounds, there’s always a push for safety data. According to the International Fragrance Association, cyclamen aldehyde meets toxicity and allergen requirements across Europe and North America. Its long shelf-life means manufacturers don’t have to worry about fast spoilage in distribution centers or on bathroom shelves.
No industrial ingredient comes without controversy. As people pay more attention to what’s in their shampoo and air freshener, concerns about synthetic chemicals keep growing. Some folks report skin sensitivities, and brands must label their use due to allergen regulations. I’ve seen more customers ask for “all-natural” products, even if the synthetic version is safer or more reliable. Industry could answer this demand by developing greener manufacturing processes for cyclamen aldehyde, reducing waste and carbon impact. Improved allergy testing and clear labeling can help, too, so nobody feels left out of enjoying the products they love.
Cyclamen aldehyde keeps fragrance affordable while supplying a steady profile from batch to batch. Modern lifestyles lean on the comforts of pleasant-smelling homes and personal care routines. By improving the way we make and regulate scented compounds, the benefits can be shared widely, without risking health or the planet. Consumers, chemists, and manufacturers all have a stake in finding safer, more sustainable ways to keep the world smelling just a bit sweeter.
Cyclamen aldehyde has found its way into common products—fresh scents in detergents, that garden-like note in shampoo, even some air fresheners. People cross paths with this chemical almost daily without noticing. Scent formulas became more complex over the years, and perfumers leaned into cyclamen aldehyde for its clean, floral aroma. In my own bathroom, a splash of hand soap often packed this compound. For those who love strong fragrances or want clothes to smell extra fresh, it’s probably hiding on their shelf, too.
Most folks don’t get a rash or cough from cyclamen aldehyde. For a long time, studies showed it rarely caused trouble for the average user. Companies kept it in products because it seemed safe for most skin types. Reports of classic scent allergens, like geraniol or cinnamal, far outweighed complaints about this ingredient.
Dermatologists reviewed patch tests, and cyclamen aldehyde almost never landed at the top of the list for causing allergies. That said, exceptions do happen. The European Scientific Committee on Consumer Safety looked into its profile. The data didn't show frequent allergy patterns, but rare cases still turned up, mostly in folks with a history of strong perfume sensitivity.
Not everyone’s skin acts the same way. Some people notice red spots or itchy patches after using perfumed products. For them, tracking each ingredient becomes almost routine. Cyclamen aldehyde slips past more often than notorious triggers like oak moss, but it can still set off a reaction, especially when skin barriers already feel weak. Kids or anyone with eczema may react faster than others.
One friend with serious fragrance allergies shared her struggles with avoiding mystery ingredients. She hunted for soap that didn’t aggravate her condition. Labels listed 'fragrance,' but finding specifics like cyclamen aldehyde proved tough. Brands sometimes list it even in “hypoallergenic” products. Shoppers with allergies need detailed info, not blanket “gentle” claims.
Cyclamen aldehyde often joins dozens of other chemicals in a single bottle. People breaking out from a product don’t always know which part caused the problem. Complicated formulas mean lots of possible suspects—a challenge for doctors helping patients trace triggers.
Scientists and allergy watchdogs push for more testing of new and existing scent chemicals. Some people trust their own patch-testing at home, but trained medical staff can help with deeper allergy sleuthing. If you notice itching after using a scented product, it’s smart to switch to unscented versions for a stretch and see if symptoms fade.
Companies already put cyclamen aldehyde through strict checks before using it. In the EU, rules limit the amount allowed in cosmetics to keep risks low. Still, for extra-tough skin or for those who already know they’re prone to allergies, simple rules help: Read every label, ask for full ingredient lists, and steer clear of any “fragrance” you don’t recognize.
If an allergy test points to cyclamen aldehyde—or if switching products helps symptoms—keeping a personal list of triggers helps stay clear. Talking to a doctor or dermatologist can also shed light on which products to trust.
Manufacturers see a shift in shopper expectations. People want to know what’s in each bottle. Health professionals recommend choosing transparent brands that fully disclose scent ingredients. Regulators continue to watch for new allergy reports and keep an eye on fragrance compounds like cyclamen aldehyde, just in case allergy rates change as use grows.
If you’ve ever cleaned your house and paused to enjoy the fresh air after, you might have caught a hint of cyclamen aldehyde. The name sounds technical, but the feeling it sparks isn’t complicated at all. This aroma chemical delivers an impression of spring—think clean linens left out under the sun, soft flower petals, and a cool breeze running through an open window.
Cyclamen aldehyde starts with a surprisingly green, watery accord. It pairs an airy floral scent with a crisp freshness. Perfumers reach for it to add a sense of cleanliness that doesn’t veer into sharp territory. There’s no strong, cloying sweetness—just a rounded, low-key floral tinged with subtle violet and a dash of cucumber. This molecule’s profile feels uncluttered, a bit lean in its structure, and doesn’t crowd other notes in a fragrance. It hangs in the background as if almost inviting you to breathe deeper.
Growing up, my mother rarely wore much perfume, but she loved a clean-smelling home. I never knew the word for the uplifting smell in our living room after we changed the sheets until years later, when a perfumer friend pointed out cyclamen aldehyde in a bottle of fabric conditioner. Suddenly, the line between a household product and a niche perfume blurred. This compound doesn’t just stay behind closed doors in a lab. It moves through everyday life—from bar soaps to deodorants, from air fresheners to fancy cologne.
Cyclamen aldehyde stands out because it walks the tightrope between artificial and natural. It mimics the soft side of real cyclamen flowers, not heady like gardenia or overwhelming like tuberose. The International Fragrance Association (IFRA) has set limits on its use, not because of any dark side, but to ensure safety and skin compatibility. It’s been tested for decades—so formulas stick to safe concentrations, giving people peace of mind.
Household brands pick cyclamen aldehyde since it lingers just long enough to signal “clean” without telling your nose it’s another chemical. Brands trust it for this reason. Laundry detergents with this note give people a sensation of well-being—one study found that people even sleep better when they sense a gentle, floral-clean scent on their sheets.
The scent also plays a big role in fine fragrance creation. Niche perfumers love it for lightening heavy floral blends that risk getting muddy. Cyclamen aldehyde acts almost like the “white space” in painting—it lets the other colors shine, but never obscures or overwhelms. It blends especially well with lilac, hyacinth, and other green-floral accords.
Supply chain transparency matters more these days. Customers want to know what goes into their products. Cyclamen aldehyde’s synthetic nature means skilled chemists must control purity, check for allergens, and stay honest about sourcing. Skilled noses rely on cyclamen aldehyde for its clarity, but now many brands go a step further, sharing sourcing information and safety data.
Scent isn’t just a luxury or a background detail. At home or in a high-end bottle, cyclamen aldehyde makes “clean” something you can smell, remember, and even crave again. For anyone who values that small lift after laundry day or wants their workspace to smell inviting, this note lands just right—quiet, comforting, and, without fuss, unmistakably uplifting.
| Names | |
| Preferred IUPAC name | 3-(4-Isopropylphenyl)-2-methylpropanal |
| Other names |
2,6-Dimethyl-2-heptenal Cyclamal C-14 aldehyde Cymal Cyclamen aldehyde A |
| Pronunciation | /ˈsɪkləˌmɛn ˈældɪˌhaɪd/ |
| Preferred IUPAC name | 3-(4-Isopropylphenyl)-2-methylpropanal |
| Other names |
2,6-Dimethyl-7-octen-2-ol 2,6-Dimethyl-7-octenal Cyclamal C10 H18 O |
| Pronunciation | /ˈsaɪ.klə.mɛn ˈæl.dɪ.haɪd/ |
| Identifiers | |
| CAS Number | 103-95-7 |
| 3D model (JSmol) | `3D model (JSmol)` string for **Cyclamen Aldehyde**: ``` CC1=CC(=O)C=CC1=CCOC ``` This is the SMILES string used for generating the 3D model in JSmol. |
| Beilstein Reference | 1208733 |
| ChEBI | CHEBI:88571 |
| ChEMBL | CHEMBL3180537 |
| ChemSpider | 6612 |
| DrugBank | DB14750 |
| ECHA InfoCard | String: 100.002.657 |
| EC Number | EC 204-846-3 |
| Gmelin Reference | 9635 |
| KEGG | C07086 |
| MeSH | D03.633.100.131.146.275.200.250 |
| PubChem CID | 60597 |
| RTECS number | GY1225000 |
| UNII | UMK41126U8 |
| UN number | UN3082 |
| CAS Number | 103-95-7 |
| Beilstein Reference | 1208731 |
| ChEBI | CHEBI:88973 |
| ChEMBL | CHEMBL142362 |
| ChemSpider | 16231 |
| DrugBank | DB14641 |
| ECHA InfoCard | 100.031.293 |
| EC Number | 4.1.2.41 |
| Gmelin Reference | 82510 |
| KEGG | C12489 |
| MeSH | D03.633.308.350.320 |
| PubChem CID | 6456 |
| RTECS number | HA2450000 |
| UNII | Z3728XGS2Y |
| UN number | UN3082 |
| Properties | |
| Chemical formula | C10H17NO |
| Molar mass | 150.22 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Floral, Cyclamen, Green, Fresh |
| Density | 0.977 g/cm³ |
| Solubility in water | Insoluble |
| log P | 2.58 |
| Vapor pressure | 0.07 mmHg (20 °C) |
| Acidity (pKa) | 14.98 |
| Basicity (pKb) | 13.75 |
| Magnetic susceptibility (χ) | Diamagnetic |
| Refractive index (nD) | 1.5140 |
| Viscosity | 38.374 cP |
| Dipole moment | 3.0 D |
| Chemical formula | C10H15NO |
| Molar mass | 150.22 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | floral, cyclamen, green, fresh |
| Density | 0.977 g/cm³ |
| Solubility in water | 0.185 g/L |
| log P | 3.69 |
| Vapor pressure | 0.02 mmHg (20°C) |
| Acidity (pKa) | 15.70 |
| Basicity (pKb) | 13.48 |
| Magnetic susceptibility (χ) | Diamagnetic |
| Refractive index (nD) | 1.5060 |
| Viscosity | 10 mPa·s |
| Dipole moment | 2.87 D |
| Thermochemistry | |
| Std molar entropy (S⦵298) | 274.6 J·mol⁻¹·K⁻¹ |
| Std enthalpy of formation (ΔfH⦵298) | -370.3 kJ/mol |
| Std enthalpy of combustion (ΔcH⦵298) | -3856 kJ·mol⁻¹ |
| Std molar entropy (S⦵298) | 312.0 J·mol⁻¹·K⁻¹ |
| Std enthalpy of formation (ΔfH⦵298) | -489.3 kJ/mol |
| Std enthalpy of combustion (ΔcH⦵298) | -3593 kJ/mol |
| Hazards | |
| Main hazards | Causes skin irritation. Causes serious eye irritation. May cause an allergic skin reaction. Toxic to aquatic life with long lasting effects. |
| GHS labelling | GHS07, GHS09 |
| Pictograms | GHS07 |
| Signal word | Warning |
| Hazard statements | H315, H317, H411 |
| Precautionary statements | P210, P233, P240, P241, P242, P243, P261, P264, P271, P272, P273, P280, P301+P310, P302+P352, P303+P361+P353, P304+P340, P305+P351+P338, P312, P321, P332+P313, P333+P313, P337+P313, P362+P364, P370+P378, P403+P235, P405, P501 |
| NFPA 704 (fire diamond) | 1-2-1-0 |
| Flash point | > 110°C |
| Autoignition temperature | 215 °C |
| Explosive limits | Lower: 0.97% Upper: 9.2% |
| Lethal dose or concentration | LD₅₀ oral (rat): 2400 mg/kg |
| LD50 (median dose) | LD50 (median dose): 860 mg/kg (oral, rat) |
| NIOSH | GG9275000 |
| PEL (Permissible) | PEL: 5 ppm |
| REL (Recommended) | 0.05 ppm |
| Main hazards | Harmful if swallowed. Causes serious eye irritation. Causes skin irritation. May cause an allergic skin reaction. |
| GHS labelling | GHS07, GHS09 |
| Pictograms | GHS07 |
| Signal word | Warning |
| Hazard statements | Hazard statements: H317, H411 |
| Precautionary statements | P264, P273, P280, P305+P351+P338, P337+P313 |
| NFPA 704 (fire diamond) | 1-2-0-0 |
| Flash point | > 102°C |
| Autoignition temperature | 205 °C |
| Lethal dose or concentration | LD50 oral rat 3200 mg/kg |
| LD50 (median dose) | LD50 (median dose): 1840 mg/kg (rat, oral) |
| NIOSH | U055 |
| PEL (Permissible) | PEL: Not established |
| REL (Recommended) | 0.5 ppm |
| Related compounds | |
| Related compounds |
Cuminaldehyde Amyl cinnamaldehyde Hexyl cinnamaldehyde Hydroxycitronellal |
| Related compounds |
Hydrocinnamaldehyde Cyclamen alcohol Cinnamaldehyde |
| Pharmacology | |
| ATC code | D02AE02 |
West Ujimqin Banner, Xilingol League, Inner Mongolia, China
