November 23, 2024
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POTASSIUM OLEATE

POTASSIUM OLEATE

POTASSIUM OLEATE

CAS number: 143-18-0
EC number: 205-590-5
Molecular Formula: C18H33KO2
Molecular Weight: 320.552

Potassium oleate can be used to synthesize uncoagulative oleic acid magnetic ultrafine particles.
Potassium Oleate is generally immediately available in most volumes, including bulk quantities.
American Elements can produce most materials in high purity and ultra high purity (up to 99.99999%) forms and follows applicable ASTM testing standards; a range of grades are available including Mil Spec (military grade), ACS, Reagent and Technical Grade, Food, Agricultural and Pharmaceutical Grade, Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia).
We can also produce materials to customer specifications by request, in addition to custom compositions for commercial and research applications and new proprietary technologies.
Typical and custom packaging is available, as is additional research, technical and safety (MSDS) data.

Potassium Oleate is a liquid potassium soap solution in water.
Potassium oleate has high foaming properties so is widely used as a foaming agent in soaps.
Potassium Oleate is used as an emulsifier in many liquid soaps and facial cleansers stopping ingredients from separating.

Potassium Oleate is classified under CAS No.143-18-0.
Potassium Oleate is also known as Potassium Salt of Oleic Acid, Oleic Acid Potassium Salt, Potassium 9-Octadecenoate.
Potassium Oleate is both  a potassium salt of oleic acid and fatty acid .
Potassium oleate is a salt because it is the product of an acid and a base.

Potassium oleate is a fatty acid because it has a long carbon backbone with a carboxyl group terminus.
Potassium Oleate is a liquid potassium soap solution in water.
Potassium Oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair  permanents.
Emulsifiers act like surfactants and reduce the surface tension of a liquid.

Potassium Oleate prevents the ingredients in these products from separating into separate chemicals.
The FDA says Potassium Oleate “may be safely used in food and in the manufacture of food components” as long as Potassium oleate is used as “a binder, emulsifier and anti-caking agent.
Potassium Oleate can also be used us cleansing agent in household cleaning products.
Potassium Oleate also can used as rubber foaming agent, detergent, lubricants and catalyst.
This Potassium Oleate is widely demanded in the international market due to Potassium oleates high effectiveness, eco-friendliness and purity, and is offered in different grades to meet the varied needs of our clients.
Moreover, we are offering the entire range at an affordable cost to our clients.

Inci name: Potassium oleate
French name: Potassium Oleate
CAS number: 143-18-0
EC number: 205-590-5
Other appellations: Potassium oleate

Potassium oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair permanents.
Emulsifiers act like surfactants and reduce the surface tension of a liquid.
Potassium oleate prevents the ingredients in these products from separating into separate chemicals.

Alternate Names:Oleic Acid Potassium Salt
Application:Potassium oleate is a synthesis reagent
CAS Number:143-18-0
Molecular Weight:320.55
Molecular Formula:C18H33KO2
Supplemental Information:This is classified as a Dangerous Good for transport and may be subject to additional shipping charges.

Potassium oleate, another name is Potassium cis-9-octadecenoate.
The chemical formula is C18H33KO2. Potassium oleate is a brown solid or a transparent amber liquid.
Potassium oleate is fatty acid potassium found in natural soaps.
Potassium Oleate is a liquid potassium soap solution in water.
Potassium Oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair permanents.
Emulsifiers act like surfactants and reduce the surface tension of a liquid.
Potassium Oleate is a natural constituent of vegetable oils like sunflower oil.

Potassium oleate is used in soapmaking to make vegetable glycerin soaps.
In Potassium oleates pure form, Potassium oleate can be an irritant, however, in soap making Potassium oleate is reduced down and is approved as food safe when Potassium oleate is used as a binding ingredient.
High-purity potassium oleate is a powdery solid, which will bring great convenience in storage, packaging and transportation, or in the amount of use during use.
However, the current refining and purification of solid potassium oleate often require the use of low temperature and decompression to remove water.
This method has a long production cycle, high energy consumption, high cost, and difficult preparation.
Therefore, Potassium oleate is very necessary to research and develop the solid potassium oleate preparation process.

How is Potassium Oleate produced?
A preparation method of solid powdered potassium oleate, the specific steps are:
1) The paste oleic acid and potassium hydroxide are reacted in the water phase to prepare a potassium oleate solution with a mass content of 10%-20%, and the mass content is 40% by the concentration at 70-80℃ -60% Potassium oleate in flowable viscous form;
2) After mixing the urea with the alcohol solution, stir at 70-90°C, and form a hot saturated urea-alcohol solution after the area is completely dissolved;
3) Add the viscous potassium oleate to the urea-alcohol solution under the heat preservation state, stir thoroughly to form a uniform and transparent solution, keep stirring, cool the solution to -5-0℃, keep the low temperature for 1-3h to make the potassium oleate solid precipitate, Filter the precipitated hard potassium oleate powder (filter with gauze), and dry the solid with dry cold air to obtain the finished solid powdered potassium oleate.

Application of Potassium Oleate:
Potassium oleate is a potassium catalyst and a trimerization catalyst for polyurethane rigid polyisocyanurate.
Potassium oleate is widely used in polyurethane insulation board PIR foam system.
In addition, potassium oleate is also widely used in rubber emulsifiers, foaming agents, release agents, detergents, lubricants, fiber softeners and surfactants.
Potassium Oleate is used as an emulsifier in many liquid soaps, facial cleansers, mustache waxes, body washes and hair permanents.
Emulsifiers act like surfactants and reduce the surface tension of a liquid.

Potassium Oleate prevents the ingredients in these products from separating into separate chemicals.
In addition, potassium oleate can also
Preparation of an antifungal agent for paint;
Preparation of multifunctional microemulsified gasoline and Oil combustion accelerator;
Preparation of anionic viscoelastic surfactant-based gel.

Potassium oleate Features and Benefits
·Potassium oleate has excellent emulsifying properties.
·Potassium oleate has low mammalian toxicity.
·Potassium oleate has no “creaming” effect.
·Potassium oleate is bio-degradable and environmentally friendly material.

Potassium oleate Applications
·Potassium oleate is primarily used for Pesticide, Fungicide, Insecticide and Bactericidal-Virucidal manufacturing.

Potassium Oleate is a natural constituent of vegetable oils like sunflower oil.
Potassium oleate is used in soapmaking to make vegetable glycerin soaps.
In Potassium oleates pure form it can be an irritant, however, in soap making it is reduced down and is approved as food safe when it is used as a binding ingredient.
Potassium oleate is an emulsifier and creates a foamy effect when used on the skin.

Physical State :Solid
Solubility :Soluble in water, alcohols, and ether.
Storage :Store at 4° C
Melting Point :235-240° C
Refractive Index :n20D ~1.47 (Predicted)

Chemical Properties:
Gray-tan paste.
Soluble in water and alcohol.
Combustible.

Characterization:
Potassium oleate is a colorless to slightly yellow transparent viscous liquid that can be dissolved in water and alcohol.
Potassium oleates aqueous solution is alkaline to phenolphthalein.
Potassium oleate soap is saponified from oleic acid and is a carboxylate anionic surfactant.
In soft water, Potassium oleate foams quickly, and the foam is rich and stable; in hard water, Potassium oleate is easy to produce insoluble fatty acid salt particles with calcium and magnesium, which has the effects of emulsification, dispersion and foam stabilization.

Recommended uses of Potassium oleate:
Potassium oleate is a potassium-based catalyst that is widely used in polyisocyanate foam reactions.
Potassium oleate liquid and solids are mainly used as catalysts for polyisohydrourate reactions in polyurethane foams.
Analytical reagents, foaming agents, detergents, lubricants and surfactants are used.

Our potassium oleate:
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Potassium oleate can be analyzed by this reverse phase (RP) HPLC method with simple conditions.
The mobile phase contains an acetonitrile (MeCN), water, and phosphoric acid.
For Mass-Spec (MS) compatible applications the phosphoric acid needs to be replaced with formic acid.
Smaller 3 µm particles columns available for fast UPLC applications.
This liquid chromatography method is scalable and can be used for isolation impurities in preparative separation.
Potassium oleate also suitable for pharmacokinetics.

Potassium oleate is used in:
Detergent.
Potassium Oleate is the potassium salt of oleic acid.
Potassium oleate is used as a binder, emulsifier, and anticaking agent.

General Description:
Brown solid or clear to amber liquid with a soapy odor.
Sinks and mixes slowly with water.

Air & Water Reactions:
Water soluble.
Gives basic aqueous solution.

Reactivity Profile
Salts, basic, such as OLEIC ACID, [POTASSIUM SALT], are generally soluble in water.
The resulting solutions contain moderate concentrations of hydroxide ions and have pH’s greater than 7.0.
Potassium oleate react as bases to neutralize acids.
These neutralizations generate heat, but less or far less than is generated by neutralization of the bases in reactivity group 10 (Bases) and the neutralization of amines.
Potassium oleate usually do not react as either oxidizing agents or reducing agents but such behavior is not impossible.

Purity / Analysis Method: >98.0%(T)
Molecular Formula / Molecular Weight: C18H33KO2 = 320.56
Physical State (20 deg.C): Solid
CAS RN: 143-18-0
Reaxys Registry Number: 4167152
PubChem Substance ID: 87574071
Merck Index (14): 7650
MDL Number: MFCD00064243

Potassium oleate is both a salt and a fatty acid 1.
Potassium oleate is a salt because Potassium oleate is the product of an acid and a base.
Potassium oleate is a fatty acid because Potassium oleate has a long carbon backbone with a carboxyl group terminus.
Potassium oleate has a molecular weight of 321.62 and a melting point of 428 degrees Fahrenheit.
Potassium oleate dissolves freely in water to produce mildly basic solutions with a pH higher than 7.

POTASSIUM OLEATE is classified as :
Emulsifying
Surfactant

CAS Number: 143-18-0 / 23282-35-1
EINECS/ELINCS No: 205-590-5
COSING REF No: 79635
Chem/IUPAC Name: Potassium oleate

Potassium oleate is a potassium salt of oleic acid.
Potassium oleate is a mixture of salt and a fatty acid.
This salt is having long carbon backbone with a carboxyl group terminus and has a formula C18H33KO2.
As a specialty chemical potassium oleate can be used as surfactant, emulsifier in cosmetic products and liquid soaps.

High ammonia (HA) natural rubber latex (NRL) is generally very sensitive at lower temperature and will form big rubber lumps after the freezing and thawing processes.
The growth of ice crystals in an aqueous medium during freezing causes the rubber particles to move closer together and thus disrupts the protein cloud surrounding the latex particles.
The broken protein cloud causes rubber particles to coalesce and form big lumps after the thawing process.
However, this phenomenon did not occur when potassium oleate (PO) was incorporated into the HA NRL medium.
PO acted as a colloid stabiliser by means of adsorbance at the rubber latex surface, thus preventing the coalescence of rubber particles from occurring.

This study investigated the effect of PO loading (0, 0.1, 0.2, 0.3, 0.4, and 0.5 phr) on the colloid stability of HA NRL after being subjected to both freezing and thawing.
These latex mixtures were frozen by cooling it at − 4 °C for 24 h and thawed by allowing them to stand at room temperature for 1 h followed by heating at 40 °C for another hour.
The results obtained showed that the PO improved the colloid stability of HA NRL in terms of morphological properties, viscosity, and mechanical stability time values.
Particle-size distribution of latex mixtures, however, did not vary even after freezing.

Linear Formula: C18H33KO2
MDL Number: MFCD00064243
EC No.: 205-590-5
Beilstein/Reaxys No.: 4167152
Pubchem CID: 44135690
IUPAC Name: potassium; octadec-9-enoate
SMILES: CCCCCCCCC=CCCCCCCCC(=O)[O-].[K+]
InchI Identifier: InChI=1S/C18H34O2.K/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-18(19)20;/h9-10H,2-8,11-17H2,1H3,(H,19,20);/q;+1/p-1
InchI Key: MLICVSDCCDDWMD-UHFFFAOYSA-M

Synonyms: Potassium cis-9-octadecenoic acid; 9-Octadecenoic acid, potassium salt; Potassium 9-octadecenoate; 9-Octadecenoic acid (Z)-, potassium salt; Oleic acid, potassium salt; Potassium 9-octadecenoate, (Z)-; Potassium cis-9-octadecenoate; Trenamine D-200; Trenamine D-201;
Category: Emulsifiers/Surfactants
Description: Yellowish, brownish, or grey-tan solid or brown liquid; Brown solid or clear to amber liquid; [CAMEO] Beige powder; [MSDSonline]
Sources/Uses: Used as detergent and emulsifying agent; Also used in fungicidal preparations

Synonyms: Oleic acid, Potassium salt
Application: Industrial / Emulsifier / Rubber / Gel formation / Soap / Cleaning chemicals / Insecticide / Agricultural chemicals
CAS No.: 143-18-0
EC No.: 205-590-5
Appearance:
White Sticky powder
Brown Liquid

Potassium oleate in slightly alkaline solution was hydrogenated for up to 7 hr with Rufert nickel catalyst at 150C and 20 kg/sq cm pressure.
With 1% catalyst, the iodine value dropped by 12 units in the first hour, and only slightly thereafter.
With 2% catalyst there was a drop of 24 units in iodine value in the first hour, a steady state for the next 3 hr, and a second sharp drop of 30 units prior to the seventh hour.
Samples of fat hydrogenated over 1% catalyst for 3 hr and 7 hr respectively were analyzed by gas-liquid chromatography, thecis andtrans monoenes were separated by argentation thin-layer chromatography, and the positional isomers in each were determined by oxidation of the total fraction to dicarboxylic acids, which were then estimated by GLC.
Apart from double-bond saturation during the first 3 hr of hydrogenation, extensive double-bond migration yielded 23.5% oftrans 8- to 13-monoene, accompanied by small amounts only of positionalcis monoenes other than the starting material.
After 7 hr of hydrogenation, extensivecis tocis isomerization occurs, accompanied by lesscis totrans shift; thecis:trans ratio for each monoene consequently tended toward 1:1.
The results are explained on the sorption mechanism of hydrogenation and suggest that soap hydrogenation, involving catalyst poisoning, may represent a magnified version of normal fat hydrogenation.

Boiling Point: 360ºC at 760 mmHg
Melting Point: 235 – 240ºC
Molecular Formula: C18H33KO2
Molecular Weight: 320.552
Flash Point: 140 °C
Exact Mass: 320.211761
PSA: 40.13000
LogP: 4.77380
Vapour Pressure: 3.7E-06mmHg at 25°C
Storage condition: 2-8°C

Different microemulsions were prepared with and without mefenamic acid (MFA).
The base microemulsion was mainly composed of distilled water; the aqueous phase, propylene carbonate; the oil phase, potassium oleate; the surfactant, and finally di-ethylene glycol; the cosurfactant.
The effect of mixing ionic (potassium oleate) with nonionic surfactant was investigated via constructing the phase diagrams of such systems.
Changes in conductivity and viscosity of the freshly prepared microemulsion over time were monitored as an indication for the stability of the microemulsion.
Measurements were carried out at room temperature, after a freeze-thaw cycle and also after storage for 3 days at 60°C, where the latter is treated as an accelerated test for the time-temperature effects on the stability of a microemulsion.

Potassium oleate was found that a set of surfactants, instead of a single surfactant, and inclusion of cosurfactant resulted in a broader region where a stable microemulsion is predominant.
At a mass ratio of 1:2 of potassium oleate to Tween-20, O/W microemulsions were found to have maximum stability among all examined systems, under the accelerated test, such that they have a minimum portion of combined surfactants and cosurfactant of 60 wt% and maximum of 80 wt%.
With the aforementioned specifications, no phase separation and neither significant change in the conductivity nor in the viscosity was observed in any of the examined systems after subjecting them both to the accelerated and freeze-thaw cycle test, indicating that such systems were thermodynamically stable.
Samples of micro emulsions passing previous tests were further subjected to an acidic medium by dispersing 1 g of MFA-containing microemulsion in 10 g HCl solution (pH 1) in a shaking water bath at 37°C, for a 6 hour period.
The maximum solubility of MFA in a stable microemulsion was approximately 5 wt%, evaluated at room temperature.

Potassium oleate
143-18-0
Oleic acid potassium salt
UNII-74WHF607EU
9-Octadecenoic acid (9Z)-, potassium salt
74WHF607EU
potassium;(Z)-octadec-9-enoate
potassium 9-(Z)-octadecenoate
Trenamine D-200
Trenamine D-201
Caswell No. 698B
Oleic acid, potassium salt
CHEMBL3122151
Potassium cis-9-octadecenoate
POTASSIUM CIS-9-OCTADECENOIC ACID
HSDB 5643
Potassium 9-octadecenoate, (Z)-
Potassium 9-octadecenoate
EINECS 205-590-5
EPA Pesticide Chemical Code 079095
9-Octadecenoic acid (Z)-, potassium salt
9-Octadecenoic acid, potassium salt
9-Octadecenoic acid (9Z)-, potassium salt (1:1)
SCHEMBL36767
DTXSID0025949
C18H33O2.K
6475AF
MFCD00064243
O0056
J-007758
Q27266310
UNII-3H8EO46QKE component MLICVSDCCDDWMD-KVVVOXFISA-M
UNII-CH428W5O62 component MLICVSDCCDDWMD-KVVVOXFISA-M
UNII-F8U72V8ZXP component MLICVSDCCDDWMD-KVVVOXFISA-M
UNII-RR41KZ6DG5 component MLICVSDCCDDWMD-KVVVOXFISA-M
norfox KO
9-octadecenoic acid (9Z)-, potassium salt
9-octadecenoic acid (9Z)-, potassium salt (1:1)
9-octadecenoic acid (Z)-, potassium salt
oleic acid potassium salt
potassium (Z)-octadec-9-enoate
potassium 9-(Z)-octadecenoate
potassium 9-octadecenoate
potassium 9-octadecenoate, (Z)-
potassium cis-9-octadecenoate
potassium cis-9-octadecenoic acid

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