Stearic alcohol is waxy solid alcohol formerly obtained from whale or dolphin oil and used as a lubricant and antifoam agent and to retard evaporation of water from reservoirs.
Stearic alcohol is used as an opacifying agent and foaming surfactant, as well as an aqueous and non-aqueous viscosity increasing agent.
Stearic alcohol is a vegetable-derived ingredient that's naturally found in plants, insects, and even humans.
CAS Number: 112-92-5
EC Number: 204-017-6
Chemical Formula: C18H38O
Molar Mass: 270.49 g/mol
Stearic alcohol is a compound produced from stearic acid, a naturally occurring fatty acid.
Stearic alcohol consists predominantly of cetyl and Stearic alcohols and is classified as a fatty alcohol.
Stearic alcohol is used as an opacifying agent and foaming surfactant, as well as an aqueous and non-aqueous viscosity increasing agent.
Stearic alcohol provides an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Stearic alcohol is widely used in conditioners and other cosmetic products due to Stearic alcohol emollient properties.
Use Stearic alcohol 1% to 25% by weight inclusion.
Stearic alcohol itself is not an emulsifier, but must be combined with another emulsifier.
The appearance of Stearic alcohol can be pastel or flake.
Stearic alcohol is waxy solid alcohol formerly obtained from whale or dolphin oil and used as a lubricant and antifoam agent and to retard evaporation of water from reservoirs.
Stearic alcohol is now manufactured by chemical reduction of stearic acid.
Stearic alcohol is an organic compound, usually appearing in the form of white crystalline granules, derived from fats and oils.
Stearic alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin.
Stearic alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid.
Stearic alcohol is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter.
The Stearic alcohol we use is derived from plant (non-animal) sources.
Stearic alcohol can be used in personal care products as an emollient, helping to nourish skin and hair, leaving them soft and smooth.
Stearic alcohol also has emulsion stabilizing properties, and can be used to help balance and add structure to oil-water formulations.
Stearic alcohol is a long-chain primary fatty alcohol consisting of a hydroxy function at C-1 of an unbranched saturated chain of 18 carbon atoms.
Stearic alcohol has a role as a plant metabolite, a human metabolite and an algal metabolite.
Stearic alcohol is a long-chain primary fatty alcohol, a fatty alcohol 18:0 and a primary alcohol.
Stearic alcohol derives from a hydride of an octadecane.
Stearic alcohol is a natural product found in Mikania cordifolia, Stoebe vulgaris, and other organisms with data available.
Stearic alcohol is a vegetable-derived ingredient that's naturally found in plants, insects, and even humans.
Per our point about not all alcohols being the same, those used in skincare typically fall into one of two categories.
Stearic alcohol is a long-chained fatty alcohol, which differs from volatile alcohols, such as denatured alcohol (also known as alcohol denat), isopropyl alcohol, and SD alcohol.
The latter are fast-drying and cooling and evaporate as soon as they're applied onto the skin.
Stearic alcohol is often used as astringents, preservatives, or solvents.
Stearic alcohol is a thickener of cosmetic products, mainly creams and lotions.
A natural alcohol which is derived from Vegetable source, Stearic alcohol changes the viscosity and adds a to creams and lotions, whilst adding stability
Stearic alcohol is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 100 000 to < 1 000 000 tonnes per annum.
Stearic alcohol is used by consumers, in articles, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.
Stearic alcohol is palm oil-derived Stearic alcohol.
Stearic alcohol is a fatty alcohol sold in flakes, pastilles and beads available in grade and kosher preparations.
Stearic alcohol can be natural, derived from plant-based oils like palm or coconut, or they can be synthetic.
Stearic alcohol is act as emulsifiers, emollients, viscosity controllers and dispersants.
Stearic alcohol is used as chemical intermediates, most often used in surfactants to enhance foaming and cleaning properties in detergents and cleaners.
Stearic alcohol is used as a nonionic surfactant and intermediate in the manufacture of plastics, textiles and waxes.
Stearic alcohol is also used as an ingredient in various lubricants, perfumes, personal care products and more.
Stearic alcohol is manufactured from renewable palm oil sources, without the use of GMOs.
Stearic alcohol is made from a minimum 98 percent C18 and no more than 2 percent C16.
Stearic alcohol has a maximum acid value of 0.5, a maximum saponification value of 1.0 and a maximum iodine value of 2.0.
Testing is performed to AOCS standards ensuring accuracy and exceptional quality control.
Great care has been taken to ensure our product is safe to use in cosmetics and other applications.
Stearic alcohol is free from peanuts, tree nuts, dairy, gluten and other common allergens.
Stearic alcohol contains no residual solvents and is bovine spongiform encephalopathy/transmissible spongiform encephalopathy (BSE/TSE) free.
Also, Stearic alcohol is not tested on animals and is REACH registered.
Stearic alcohol is a fatty alcohol used as an emollient and to help keep other ingredients intact in a formulation.
Stearic alcohol is not to be confused with the drying, irritating types of alcohol such as SD alcohol or denatured alcohol.
Stearic alcohol also has cleansing and foam-boosting properties and isn’t considered drying on skin.
Stearic alcohol in its raw form is a white, waxy substance.
The U.S. Food and Drug Administration has ruled Stearic alcohol safe as a food additive, and the independent Cosmetic Ingredient Review panel deems Stearic alcohol safe as used in cosmetics.
Stearic alcohol is a vegetable-based, highly refined fatty alcohol.
Stearic alcohol is a vegetable-based, refined fatty alcohol.
Stearic alcohol is an all-purpose, vegetable sourced, all natural and from from sustainable coconut oils.
Stearic alcohol is a very effective stabilizer, thickening agent, emulsifier, for making all kinds of lotions and creams, body butters and more.
Like other fatty alcohols stearyl is an excellent natural thickener and emulsifier or co emulsifier, and imparts a nice smooth feel.
Stearic alcohol is a very useful additive in creams, lotions and more, as a secondary emulsifier, thickener, emollient, and is compatible with nearly all cosmetic ingredients.
Compared to other fatty alcohols, like cetyl alcohol, in many formulations, the Stearic alcohol will result in a slightly more softer, conditioned feel, and after-feel sensory wise, and a whiter appearance.
Stearic alcohol is a 100% natural, vegetable derived fatty alcohol, used widely in the cosmetic and personal care industry.
Stearic alcohol is commonly used to form emulsions and is used as a conditioner, emollient, emulsifier and thickener in many cosmetic and personal care products.
As an emulsifier, Stearic alcohol helps to bind and keep product ingredients from separating (oil and water), as well as giving products better spreadability.
As a thickening agent and surfactant, Stearic alcohol helps to increase the viscosity (thickness) of Stearic alcohol and can also increase the foaming capacity.
Stearic alcohol has emollient properties and also can function as an emulsifier and thickener in products.
In stick products, such as deodorants and antiperspirants, Stearic alcohol helps to emulsify the active ingredient and fragrance into the wax base.
Stearic alcohol also helps modify the physical texture of the stick’s waxy base.
Stearic alcohol is a compound produced from stearic acid, a naturally occurring fatty acid.
Stearic alcohol is found naturally in various mammalian tissues.
Stearic alcohol is used in the biosynthesis of lipids and other naturally occurring cellular constituents and enters metabolic pathways for energy production.
In the pharmaceutical and cosmetics industries Stearic alcohol can be used as an emulsion stabilizer, fragrance ingredient, surfactant/emulsifying agent, foam booster, and as a viscosity increasing agent.
Stearic alcohol is found as an ingredient of hydrophilic ointments and petrolatums, and is also used in the preparation of creams.
Stearic alcohol appears to be poorly absorbed from the gastrointestinal tract.
Stearic alcohol is an organic compound classified as a saturated fatty alcohol with the formula CH3(CH2)16CH2OH.
Stearic alcohol takes the form of white granules or flakes, which are insoluble in water.
Stearic alcohol has a wide range of uses as an ingredient in lubricants, resins, perfumes, and cosmetics.
Stearic alcohol is used as an emollient, emulsifier, and thickener in ointments, and is widely used as a hair coating in shampoos and hair conditioners.
Stearyl heptanoate, the ester of Stearic alcohol and heptanoic acid (enanthic acid), is found in most cosmetic eyeliners.
Stearic alcohol has also found application as an evaporation suppressing monolayer when applied to the surface of water.
Stearic alcohol is prepared from stearic acid or some fats by the process of catalytic hydrogenation.
Stearic alcohol has low toxicity.
Stearic alcohol is one of the most promising fatty alcohols to be used for food applications as an oil-structuring agent.
Shows peanut oil containing 2.0%, 2.5%, and 3.0% of Stearic alcohol (C18OH).
The minimum gelling concentration (MGC), that is the lowest concentration that is permitted to obtain a self-standing material, is 2.5% (w/w). As described by Valoppi et al. (2017), the MGC depends on the chain length of the fatty alcohol and decreases as the chain length of fatty alcohols increases.
The MGC is also affected by the cooling rate applied: upon fast cooling, the ability of molecules to gel is reduced with a concomitant increase of the MGC.
For instance, the MGC of Stearic alcohol in peanut oil increases from 2.5% to 7.0% (w/w) upon cooling at 5 and 40°C/min, respectively.
This is due to the changes in crystal size and morphology as a consequence of the cooling rate used during oleogel preparation.
Stearic alcohol is evident that a slow cooling rate (5°C/min) of oil with 5% of C18OH leads to the formation of crystal structures 10 times larger than at a fast cooling rate (40°C/min).
Similar results were obtained for C16OH-, C20OH-, and C22OH-containing oleogels.
Uses of Stearic alcohol:
Stearic alcohol is used as a substitute for cetyl alcohol in pharmaceutical dispensing.
Stearic alcohol is used in cosmetic creams and perfumery.
Stearic alcohol is used in textile oils and finishes.
Stearic alcohol is used as an antifoam agent; and in lubricants, resins, and surface active agents.
Synthetic Stearic alcohol has been approved as a direct and indirect food additive ingredient and as an ingredient in over-the-counter drugs.
Substitute for cetyl alcohol in pharmaceutical dispensing, in cosmetic creams, for emulsions, textile oils and finishes.
Stearic alcohol is used as antifoam agent, lubricant, and chemical raw material.
Stearic alcohol is used in perfumery, cosmetics, intermediate, surface active agents, lubricants, resins, antifoam agent.
Stearic alcohol is used in antifoam agent.
Stearic alcohol is used in resins, and USP ointments.
Synthetic Stearic alcohol has been approved as a direct and indirect food additive ingredient and as an ingredient in over-the-counter drugs.
Widespread uses by professional workers:
Stearic alcohol is used in the following products: lubricants and greases, coating products, biocides (e.g. disinfectants, pest control products), fillers, putties, plasters, modelling clay, adhesives and sealants, non-metal-surface treatment products, washing & cleaning products, air care products, anti-freeze products and welding & soldering products.
Stearic alcohol is used in the following areas: building & construction work and agriculture, forestry and fishing.
Stearic alcohol is used for the manufacture of: , mineral products (e.g. plasters, cement), machinery and vehicles, rubber products and plastic products.
Other release to the environment of Stearic alcohol is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.
Uses at industrial sites:
Stearic alcohol is used in the following products: lubricants and greases, fillers, putties, plasters, modelling clay, coating products, adhesives and sealants, non-metal-surface treatment products and pH regulators and water treatment products.
Stearic alcohol is used in the following areas: building & construction work and mining.
Stearic alcohol is used for the manufacture of: chemicals, , mineral products (e.g. plasters, cement) and machinery and vehicles.
Release to the environment of Stearic alcohol can occur from industrial use: in processing aids at industrial sites, in the production of articles, as an intermediate step in further manufacturing of another substance (use of intermediates), of substances in closed systems with minimal release and as processing aid.
Industry Uses:
Antioxidant
Cleaning agent
Defoamer
Emulsifier
Fuel
Intermediate
Lubricants and lubricant additives
Lubricating agent
Monomers
Not Known or Reasonably Ascertainable
Other
Other (specify)
Paint additives and coating additives not described by other categories
Processing aids not otherwise specified
Solubility enhancer
Solvent
Surfactant (surface active agent)
Viscosity modifiers
Consumer Uses:
Stearic alcohol is used in the following products: washing & cleaning products, biocides (e.g. disinfectants, pest control products), coating products, anti-freeze products, finger paints, lubricants and greases and polishes and waxes.
Other release to the environment of Stearic alcohol is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.
Other Consumer Uses:
Cleaning agent
Emulsifier
Fuel
Lubricating agent
Not Known or Reasonably Ascertainable
Other
Other (specify)
Paint additives and coating additives not described by other categories
Pigment
Solvent
Surfactant (surface active agent)
Industrial Processes with risk of exposure:
Textiles (Printing, Dyeing, or Finishing)
Applications of Stearic alcohol:
Stearic alcohol is most commonly used in all kinds of cosmetic products.
Stearic alcohol can also be successfully used in other industrial sectors.
Stearic alcohol is found in a number of detergents – Stearic alcohol is responsible for foam stabilisation in products intended for cleaning hard surfaces.
In the pulp and paper industry, Stearic alcohol is a component of emulsion skimmers.
Stearic alcohol is a component of processing fluids, and in the paint and varnish industry serves as a component of open-time regulators.
Benefits of Stearic alcohol:
Benefits for Skin:
On the flip side, because Stearic alcohol is a fatty alcohol, Stearic alcohol is not drying, non-irritating, and usually beneficial when used consistently.
Stearic alcohol acts as an emollient, leaving the skin feeling smooth and soft by forming a protective layer on the surface and helping to prevent moisture loss.
Stearic alcohol is often combined with cetyl alcohol (another fatty alcohol) to create Stearic alcohol, which also has emollient properties.
The primary reason Stearic alcohol shows up in skincare products has more to do with formulation reasons and Stearic alcohol ability to act as an emulsifier, ensuring that oil and water can be blended so that products ultimately feel thicker and more cosmetically pleasing.
Functions of Stearic alcohol:
Stearic alcohol is a popular alcohol added to many cosmetic formulations.
Stearic alcohol action is based on the function of the solvent of active substances, the function of a preservative or emulsifier.
Moreover, Stearic alcohol has other important functions in cosmetic products:
Bodying agent:
As a substance with emulsion stabilising properties, Stearic alcohol gives the desired form of a cosmetic product.
Stearic alcohol is responsible for the stabilisation of oil-in-water emulsions, water-in-oil emulsions and water-free formulations.
Stearic alcohol directly affects the viscosity of a product, giving Stearic alcohol appropriate performance and application properties.
Fatty alcohols, which include cetyl alcohol and Stearic alcohol, are designed to stabilise the emulsion, i.e., prevent Stearic alcohol from delaminating into water and oily components.
Stearic alcohol also provides and improves spreadability and can support foaming.
Emollient:
Stearic alcohol is included in a range of cosmetics designed for skin and hair care.
Stearic alcohol creates a so-called occlusive layer on the surface.
Stearic alcohol prevents excessive evaporation of water, thus keeping skin and hair soft and smooth.
For this reason, Stearic alcohol is dedicated primarily for use on dry skin.
As an emollient, Stearic alcohol is indirectly also a cosmetic ingredient with a moisturising effect.
Stearic alcohol reduces the drying effect of anionic surfactants – leaves the skin moisturised and covered with a protective layer.
Regreasing substance:
Cleansing cosmetic products remove sebum and epidermal fatty substances from the skin surface.
While Stearic alcohol is desirable to thoroughly clean the skin, Stearic alcohol also allows unwanted substances from the environment to penetrate into the deeper layers of the skin.
For this reason, regreasing substances, such as Stearic alcohol, are commonly added to cosmetics, creating a specific protective layer.
Emulsifying:
Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil).
Emulsion stabilising:
Promotes the emulsification process and improves the stability and shelf life of the emulsion.
Foam boosting:
Improves the quality of the foam produced by increasing one or more of the following properties: volume, texture and/or stability.
Masking:
Reduces or inhibits the odor or basic taste of the product.
Opacifying:
Reduces transparency or translucency of cosmetics.
Refatting:
Restores lipids in hair or in upper layers of the skin.
Surfactant:
Reduces the surface tension of cosmetics and contributes to the even distribution of Stearic alcohol when it is used.
Viscosity controlling:
Increases or decreases the viscosity of cosmetics.
Cosmetic products containing Stearic alcohol:
Hair shampoos,
Hair conditioners,
Cleansing milks and oils,
Shower gels,
Body lotions,
Hand and foot creams,
Aftershave creams,
Body scrubs,
Self-tanners,
Anti-wrinkle creams,
Hair removal preparations,
Mascaras,
Lip balms,
Anti-acne preparations.
Characteristics of Stearic alcohol:
Stearic alcohol is the name given by the INCI (International Nomenclature of Cosmetic Ingredients) to a compound non-ionic surfactant that is a mixture of cetyl alcohol and Stearic alcohol.
Both of these alcohols are fatty alcohols.
Manufacturing Methods of Stearic alcohol:
Stearic alcohol is prepared commercially via Ziegler aluminum alkyl hydrolysis or the catalytic, high-pressure hydrogenation of stearyl acid, followed by filtration and distillation.
Stearic alcohol may also be derived from natural fats and oils.
General Manufacturing Information of Stearic alcohol:
Industry Processing Sectors:
All Other Basic Organic Chemical Manufacturing
All Other Chemical Product and Preparation Manufacturing
Fabricated Metal Product Manufacturing
Machinery Manufacturing
Mining (except Oil and Gas) and support activities
Not Known or Reasonably Ascertainable
Oil and Gas Drilling, Extraction, and Support activities
Other (requires additional information)
Paint and Coating Manufacturing
Paper Manufacturing
Pesticide, Fertilizer, and Other Agricultural Chemical Manufacturing
Petrochemical Manufacturing
Petroleum Lubricating Oil and Grease Manufacturing
Pharmaceutical and Medicine Manufacturing
Plastics Material and Resin Manufacturing
Soap, Cleaning Compound, and Toilet Preparation Manufacturing
Textiles, apparel, and leather manufacturing
Wholesale and Retail Trade
Pharmacology and Biochemistry of Stearic alcohol:
Bionecessity:
Stearic alcohol is found naturally in various mammalian tissues.
Stearic alcohol is used in the biosynthesis of lipids and other naturally occurring cellular constituents and enters metabolic pathways for energy production.
Action Mechanism of Stearic alcohol:
Ethanol, 1-propanol, 1-butanol, 1-pentanol and 1-octanol had essentially the same effects on the mitochondrial ultrastructure: a mixed population of small and enlarged mitochondria with poorly developed cristae.
1-dodecanol induced ultrastructural changes of mitochondria of two distinct types: a mixed population of small and enlarged mitochondria with poorly developed cristae in some hepatocytes and remarkably enlarged mitochondria with well-developed cristate in others; and Stearic alcohol induced remarkably enlarged mitochondria in all hepatocytes.
The reactivity of the fatty alcohols with cetrimide decreased with increasing chain length although branching on the tetradecanol and hexadecanol resulted in a higher reactivity.
Adding Stearic alcohol to 1-hexadecanol resulted in an increased reactivity rising to a maximum for mixtures containing 20-40% w/w Stearic alcohol.
Peak inhibition was recorded with saturated primary alcohols (64 microM) varying in chain length from 16 to 19 carbon atoms.
The unsaturated alcohols (oleyl, linoleyl, and linolenyl) and the secondary alcohol (pentadecan-2-ol) were considerably less effective growth inhibitors.
Stearic and palmitic acids were also ineffective.
After incubation of stationary phase Leishmania donovani with [1-14C]octadecanol, about 70% of the precursor was taken up within 3 hr.
Wax esters and acyl moieties of glycerolipids contained most of the 14C-activity from 3 to 6 hr, because octadecanol was partly oxidized to stearate.
Ether moieties were only weakly labeled.
After 40 hr, 1-0-alkyl and 1-0-alk-1'-enyl diacylglycerols as well as 1-0-alkyl and 1-0-alk-1'-enyl-2-acyl-sn-glycero-3-phosphoethanolamines contained nearly all of the radioactivity.
Most of the label in the neutral ether lipids was located in the alkyl ether side chain, whereas, in the phosphatidylethanolamine fraction, most of the label was found in the alkenyl ether side chain.
Human Metabolite Information of Stearic alcohol:
Tissue Locations:
Adipose Tissue
Bladder
Brain
Epidermis
Eye Lens
Fibroblasts
Intestine
Kidney
Liver
Neuron
Ovary
Pancreas
Placenta
Platelet
Prostate
Skeletal Muscle
Spleen
Testis
Thyroid Gland
Cellular Locations:
Extracellular
Membrane
Handling and Storage of Stearic alcohol:
Safe Storage:
Separated from strong oxidants and strong acids.
First Aid Measures of Stearic alcohol:
Eye First Aid:
First rinse with plenty of water for several minutes (remove contact lenses if easily possible), then refer for medical attention.
Ingestion First Aid:
Rinse mouth.
Fire Fighting:
In case of fire in the surroundings, use appropriate extinguishing media.
Fire Fighting Procedures:
To fight fire use foam, carbon dioxide, dry chemical.
Accidental Release Measures of Stearic alcohol:
Spillage Disposal:
Sweep spilled substance into covered containers.
Carefully collect remainder.
Then store and dispose of according to local regulations.
Cleanup Methods:
Sweep spilled substance into containers.
Carefully collect remainder, then remove to safe place.
Disposal Methods of Stearic alcohol:
The most favorable course of action is to use an alternative chemical product with less inherent propensity for occupational exposure or environmental contamination.
Recycle any unused portion of the material for Stearic alcohol approved use or return Stearic alcohol to the manufacturer or supplier.
Ultimate disposal of the chemical must consider:
Stearic alcohol's impact on air quality; potential migration in soil or water; effects on animal, aquatic, and plant life; and conformance with environmental and public health regulations.
Identifiers of Stearic alcohol:
CAS Number: 112-92-5
ChEBI: CHEBI:32154
ChEMBL: ChEMBL24640
ChemSpider: 7928
ECHA InfoCard: 100.003.652
PubChem CID: 8221
UNII: 2KR89I4H1Y
CompTox Dashboard (EPA): DTXSID8026935
InChI: InChI=1S/C18H38O/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18-19/h19H,2-18H2,1H3
Key: GLDOVTGHNKAZLK-UHFFFAOYSA-N
InChI=1/C18H38O/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18-19/h19H,2-18H2,1H3
Key: GLDOVTGHNKAZLK-UHFFFAOYAZ
SMILES: OCCCCCCCCCCCCCCCCCC
CAS number: 112-92-5
EC number: 204-017-6
Hill Formula: C₁₈H₃₈O
Molar Mass: 270.49 g/mol
HS Code: 2905 17 00
Properties of Stearic alcohol:
Chemical formula: C18H38O
Molar mass: 270.49 g/mol
Appearance: White solid
Density: 0.812 g/cm3
Melting point: 59.4 to 59.8 °C (138.9 to 139.6 °F; 332.5 to 332.9 K)
Boiling point: 210 °C (410 °F; 483 K) at 15 mmHg (2.0 kPa)
Solubility in water: 1.1×10−3 mg/L
Boiling point: 330 - 360 °C
Density: 0.805 - 0.815 g/cm3 (60 °C)
Flash point: 195 °C
Ignition temperature: 230 °C DIN 51794
Melting Point: 55 - 60 °C
Vapor pressure: <1 hPa (20 °C)
Bulk density: 300 kg/m3
Molecular Weight: 270.5 g/mol
XLogP3: 8.4
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 1
Rotatable Bond Count: 16
Exact Mass: 270.292265831 g/mol
Monoisotopic Mass: 270.292265831 g/mol
Topological Polar Surface Area: 20.2Ų
Heavy Atom Count: 19
Complexity: 145
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 1
Compound Is Canonicalized: Yes
Specifications of Stearic alcohol:
Assay (GC, area%): ≥ 96.0 % (a/a)
Melting range (lower value): ≥ 56 °C
Melting range (upper value): ≤ 59 °C
Identity (IR): passes test
Acid Value (mg KOH/g): 0.1 Max
Saponification Value (mg KOH/g): 0.5 Max
Iodine Value (% I2absorbed): 0.3 Max
Hydroxyl Value (mgKOH/g): 200-210
Hydrocarbon (%): 0.50 max
Color (APHA): 10 Max
Moisture Content (%): 0.2 Max
Fatty Alcohol Content (%): 99 min
Composition (%):
≤ C16: 2 Max
C18: 98 min
≥ C20: 2 Max
Product Form: Liquid
Packaging: Drum; ISO; Bulk
Names of Stearic alcohol:
Regulatory process names:
1-Octadecanol
Octadecan-1-ol
octadecan-1-ol
Stearyl alcohol
IUPAC names:
1-Octadecanol
1-Octadecanol
Alcohol C18
OCTADECAN-1-OL
Octadecan-1-ol
octadecan-1-ol
Octadecan-1-ol
octadecan-1-ol
Octadecanol
Octadecanol
STEARYL ALCOHOL
Stearyl alcohol
stearyl alcohol
Stearyl Alcohol
Stearyl alcohol
Preferred IUPAC name:
Octadecan-1-ol
Trade names:
1-Octadecanol
Stearyl alcohol
Octadecanol
Octadecyl alcohol
N-Octadecanol
Alfol 18
CO-1897
ECOROL 18/98
ECOROL 18/98 F
ECOROL 18/98 P
ECOROL 18/99 P
ECOROL 28
Fatty alcohol 1218
Ginol 1618
Ginol 18
Kalcol
Leunapol-FA 18
MASCOL 1898
MASCOL 1898P
MASCOL 68/30 (70% C18)
MASCOL 68/50 (50% C18)
Nacol 18
Nafol 1218
Nafol 1618
Rofanol 50/55 V
Rofanol 60/65 V
Rofanol 70/75 V
Rofanol 80/85 V
Stearyl Alcohol
TA-1618
MASCOL 1898
Other names:
1-Octadecanol
Octadecan-1-ol
Other identifiers:
112-92-5
193766-48-2
8014-37-7
8032-19-7
8032-21-1
8034-90-0
Synonyms of Stearic alcohol:
Stearyl alcohol
Octadecan-1-ol
1-OCTADECANOL
Octadecanol
112-92-5
1-Hydroxyoctadecane
Octadecyl alcohol
n-Octadecanol
n-1-Octadecanol
Stearol
n-Octadecyl alcohol
Stearic alcohol
Atalco S
Alfol 18
Steraffine
Alcohol stearylicus
Polaax
Stenol
Crodacol-S
Siponol S
Siponol SC
Aldol 62
Lanol S
Sipol S
Adol 68
Decyl octyl alcohol
Cachalot S-43
Lorol 28
1-0ctadecanol
Dytol E-46
Stearylalkohol
Usp xiii stearyl alcohol
Octadecylalkohol
C18 alcohol
Rita SA
Lanette 18
Hainol 18SS
Alcohol(C18)
Custom stearyl
CO-1895
Ultrapure s
Oristar sa
Lipocol s-deo
Lipocol S
Stearyl alcohol s
Crodacol s95
Octadecanol, 1-
Stearyl alcohol pc
Alfol 18 alcohol
Aec stearyl alcohol
Crodacol s-95
Kalcohl 80
Nacol 18do alcohol
Conol 30F
Nikkol stearyl alcohol
CCRIS 3960
Rofamol
Sabonal c 18 95
CO-1897
Nacol 18-94 alcohol
Nacol 18-98 alcohol
Nacol 18-99 alcohol
Conol 1675
HSDB 1082
Octadecanol NF
Crodacol S
NSC 5379
NSC-5379
1-stearyl alcohol
EINECS 204-017-6
UNII-2KR89I4H1Y
BRN 1362907
2KR89I4H1Y
DTXSID8026935
CHEBI:32154
Kalcohl 8098
OCTADECENOL-
AI3-01330
Adol 62
C18H38O
NSC5379
CO 1895F
MFCD00002823
Stearyl alcohol [JAN:NF]
Stearyl alcohol [USAN:JAN]
STEARYL ALCOHOL 98/F
STEARYL ALCOHOL 98/P
DTXCID306935
N-OCTADECYL-D37 ALCOHOL
EC 204-017-6
4-01-00-01888 (Beilstein Handbook Reference)
EINECS 272-778-1
CACHALOT S-56 STEARYL ALCOHOL
68911-61-5
NCGC00159369-02
NCGC00159369-04
STEARYL ALCOHOL (II)
STEARYL ALCOHOL [II]
STEARYL ALCOHOL (MART.)
STEARYL ALCOHOL [MART.]
STEARYL ALCOHOL (USP-RS)
STEARYL ALCOHOL [USP-RS]
STEARYL ALCOHOL (EP MONOGRAPH)
STEARYL ALCOHOL [EP MONOGRAPH]
CAS-112-92-5
stearylalcohol
Octanodecanol
Stearal
-n octadecanol
Alcool starylique
n-octadecylalcohol
Varonic BG
1-hidroxioctadecane
Crodacol S70
Crodacol S95NF
Stearyl alcohol NF
alcohol n-Octadecil
Lanette 18DEO
stearyl alcohol pure
Aec cetearyl alcohol
Cachalot S 43
Cachalot S-56
Crodacol S 70
Crodacol S 95
Laurex 18
Octadecan- 1- ol
Philcohol 1800
Stearyl alcohol USP
Lanette 18 DEO
Alfol 18NF
Conol 30SS
Crodacol 1618
Conol 30S
Lorol C18
86369-69-9
Crodacol S 95 NF
Kalchol 8098
Kalcohl 8099
Alfol 1618 alcohol
Adol 64
Alcohol cetylstearylicus
Alfol 1618e alcohol
Hyfatol 18-95
Hyfatol 18-98
Kalcol 8098
Lorol C 18
Speziol C 18 Pharma
Alfol 1618cg alcohol
1-Octadecanol, 95%
SSD AF (Salt/Mix)
Nacol 18-98
VLTN 6
Ceteareth-20 (Salt/Mix)
SCHEMBL23810
OCTADECANOL [WHO-DD]
STEARYL ALCOHOL [MI]
CHEMBL24640
Stearyl alcohol (JP17/NF)
STEARYL ALCOHOL [JAN]
STEARYL ALCOHOL [HSDB]
STEARYL ALCOHOL [INCI]
WLN: Q18
STEARYL ALCOHOL [VANDF]
SCHEMBL10409854
Stearyl alcohol; octadecan-1-ol
STEARYL ALCOHOL [WHO-DD]
CS-D1671
HY-Y1809
Tox21_111610
LMFA05000085
STL453659
1-Octadecanol, technical grade, 80%
AKOS009031494
Tox21_111610_1
1-Octadecanol, ReagentPlus(R), 99%
CO 1895
CO 1897
CO 1898
Octadecan-1-ol (Langkettige Alkohole)
NCGC00159369-03
LS-97715
SY011369
1-Octadecanol, puriss., >=99.0% (GC)
FT-0761208
O0006
1-Octadecanol, Selectophore(TM), >=99.5%
EN300-19954
1-Octadecanol, Vetec(TM) reagent grade, 94%
D01924
A802702
L000755
Q632384
SR-01000944718
J-002873
SR-01000944718-1
Z104476204
Stearyl alcohol, European Pharmacopoeia (EP) Reference Standard
2DEF44B7-B367-4188-89E4-531379568C74
Stearyl alcohol, United States Pharmacopeia (USP) Reference Standard
Stearyl Alcohol, Pharmaceutical Secondary Standard; Certified Reference Material
InChI=1/C18H38O/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18-19/h19H,2-18H2,1H
Octadecan-1-ol [Wiki]
112-92-5 [RN]
1362907 [Beilstein]
1-Octadecanol [ACD/Index Name] [ACD/IUPAC Name]
1-Octadecanol [German] [ACD/Index Name] [ACD/IUPAC Name]
1-Octadécanol [French] [ACD/IUPAC Name]
204-017-6 [EINECS]
2KR89I4H1Y
MFCD00002823 [MDL number]
octadecyl alcohol
RG2010000
Stearyl alcohol [JAN] [JP15] [NF] [USAN]
stenol
steryl alcohol
Octadecanol NF [NF]
Stearal
1-hydroxyoctadecane
1-Octacosanol [ACD/Index Name] [ACD/IUPAC Name] [Wiki]
1-Octadecan-1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13,14,14,15,15,16,16,17,17,18,18,18-d37-ol(9CI)
1-OCTADECANOL-1,1-D2
1-Stearyl alcohol
2-(1-adamantyl)-2-amino-acetic acid
2-(adamantan-1-yl)-2-aminoacetic acid
204259-62-1 [RN]
267-008-6 [EINECS]
272-778-1 [EINECS]
557-61-9 [RN]
86369-69-9 [RN]
Adol 62
Atalco S
Cachalot S-56
Cetostearyl alcohol
Conol 1675
Conol 30F
Crodacol S
Crodacol S70
Crodacol S95NF
Crodacol-S
Decyl octyl alcohol
Kalcohl 80
Kalcohl 8098
Lanette 18 DEO
Lanol S
Lorol C18
n-1-octadecanol
n-octadecanol
N-OCTADECYL ALCOHOL
Octadecanol
Octadecanol, 1-
Octadecylalkohol
Octanodecanol
Octodecyl alcohol
Philcohol 1800
Polaax
Q13 [WLN]
Rita SA
Rofamol
Sipol S
Siponol S
Siponol SC
SSD AF
Stearic alcohol
Stearol
Stearyl alcohol NF
Stearyl alcohol USP
Stearylalkohol
Steraffine
UNII:2KR89I4H1Y
UNII-2DMT128M1S
UNII-2KR89I4H1Y
UNII-B1K89384RJ
Varonic BG