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Lauric acid diethanol amide (Loxiol 1010), is a non-ionic surfactant derived from lauric acid and diethanolamine.
Lauric acid diethanol amide (Loxiol 1010) has a waxy or viscous consistency and is commonly used as a thickener, foam stabilizer, and emulsifying agent in various personal care, industrial, and household products.
Lauric acid diethanol amide (Loxiol 1010) is a fatty acid amide.
CAS Number: 120-40-1
Molecular Formula: C16H33NO3
Molecular Weight: 287.44
EINECS Number: 204-393-1
Synonyms: N,N-Bis(2-hydroxyethyl)dodecanamide, 120-40-1, Lauric diethanolamide, Lauramide DEA, Lauric acid diethanolamide, Lauryl diethanolamide, Lauroyl diethanolamide, Standamidd ld, Alkamide LE, Rolamid cd, Condensate PL, Dodecanamide, N,N-bis(2-hydroxyethyl)-, Comperlan LD, Mackamide LL, Standamid LD, Diethanollauramide, Hetamide ML, Mackamide LLM, Richamide STD, Crillon LDE, Empilan LDE, Ethylan MLD, Rewomid DLMS, Stepan LDA, N,N-Bis(2-hydroxyethyl)lauramide, Coco diethanolamide, Varamid ml 1, Varamide ML 1, Lauroyldiethanolamine, Clindrol 100L, Clindrol 101CG, Clindrol 203CG, Clindrol 210CGN, Monamide 150LW, Richamide 6310, Super Amide L-9A, Super Amide L-9C, Synotol L-60, Unamide J-56, Aminon L 02, Onyxol 345, Bis(2-hydroxyethyl)lauramide, N,N-Diethanollauramide, N,N-Diethylollauramide, Rewomid DL 203/S, Ninol P-621, Steinamid DL 203 S, N,N-Bis(hydroxyethyl)lauramide, Ninol 4821, Diethanolamine lauroylamide, Clindrol superamide 100L, Crillon L.D.E., Lauric acid diethanolamine condensate, N,N-Diethanollauric acid amide, N,N-DI(2-HYDROXYETHYL)LAURAMIDE, EMID 6511, NCI-C55323, N,N-Bis(2-hydroxyethyl)laurylamide, N,N-Bis(2-hydroxyethyl)lauroylamide, Lauric acid diethanolamine, C11DEA, I29I2VHG38, 72968-36-6, DTXSID5025491, Lauric acid diethanolamine condensate (1:1), LDE, NCGC00181001-01, Lankrostat JP, Incromide LR, Lauramido DEA, Lalmin D, LDA (surfactant), Ninol aa62, Clindrol 200L, Chemistat 2500, Ninol aa-62 extra, Chemstat LD 100, Monamid 150-LW, Caswell No. 519A, Duspar LA 2000, CCRIS 4662, lauric diethanol amide, HSDB 5586, N,N-Bis(beta-hydroxyethyl)lauramide, EINECS 204-393-1, EPA Pesticide Chemical Code 079018, Methyl laurate-diethanolamine condensate, BRN 1791417, UNII-I29I2VHG38, Clindrol, AI3-09484, Hartamide LDA, Stremid K, Ablumide LDE, diethanol lauramide, Mackamide L10, Schercomid SL-EX, Carsamide SAL-7, Dehydat 10, EINECS 277-136-4, lauric-diethanolamide, Alkamide 327, MFCD00045982, Schercomid SL-Extra, Witcamide 5138, Witcamide 5195, Clindrol 200 L, Monamid 150 LW, Ninol AA 62 extra, N-Lauroyldiethanolamine, Monamid 150-LMWC, Ninol 30-LL, Ninol AA 62, Pionin D 1110, N,N-Diethanoldodecanamide, N-Dodecanoyldiethanolamine, Diethanolamide lauric acid, C11-Coconut diethanolamide, Diethanol lauric acid amide, EC 204-393-1, Lauric acid-diethanol amide, 4-04-00-01539 (Beilstein Handbook Reference), MLS006010225, LAURAMIDE DEA [VANDF], SCHEMBL284367, DTXCID405491, Schercomid 1214 (Salt/Mix), Diethanolamide of methyl laurate, LAURAMIDE DEA [WHO-DD], CHEMBL1996872, EMID 6541, CHEBI:143726, DTXSID101022608, LAURIC DIETHANOLAMIDE [II], DIETHANOL LAURAMIDE [VANDF], Lauramide, N,N-bis(hydroxyethyl)-, Tox21_112653, LMFA08040058, LAURAMIDE DIETHANOLAMIDE (DEA), AKOS014510507, lauric acid diethanolamide, AldrichCPR, CS-W005513, N,N-Bis(.beta.-hydroxyethyl)lauramide, AS-10219, CAS-120-40-1, SMR001826330, 1ST161670, N pound notN-Bis(2-hydroxyethyl)dodecanamide, NS00010591, G56359, N,N-DI(2-HYDROXYETHYL)LAURAMIDE [HSDB], SBI-0654207.0001, EN300-7489805, 1ST161670-1000, SR-01000944847, SR-01000944847-1, W-109444, BRD-K11548689-001-01-6, Q27280284, Z1262465391, Lauric acid diethanolamide Solution in Methanol, 1000mug/mL, N,N-Bis(2-hydroxyethyl)dodecanamide, 9CI, N,N-Bis(2-hydroxyethyl)lauramide, EMALEX NN-7,EMALEX NN-9,LAUROYL DIETHANOLAMIDE,LAURYL DIETHANOLAMIDE,LAURIC DIETHANOLAMIDE,LAURIC ACID DIETHANOLAMIDE,N,N-BIS(2-HYDROXYETHYL)DODECANAMIDE,N,N-BIS(2-HYDROXYETHYL)LAURAMIDE
Lauric acid diethanol amide (Loxiol 1010) antistatic agents eliminate the build-up of a static charge in the finished article.
Positive effects include avoidance of dust pick-up and handling problems as well as risks associated with static discharges.
Lauric acid diethanol amide (Loxiol 1010) helps mix oil and water, making it a useful ingredient in creams, lotions, and cleaning solutions.
It enhances foam longevity and stability, which is why it’s often used in shampoos, body washes, and other foaming products.
Adds viscosity to products, providing a richer, more luxurious texture.
In shampoos, body washes, and conditioners as a foam booster, thickener, and moisturizer.
In formulations for heavy-duty cleaners due to its degreasing properties.
As a lubricant and rust-prevention agent.
In textile softeners and anti-static agents for fabric treatment.
Lauric acid diethanol amide (Loxiol 1010) is widely regarded as safe for use, some concerns have been raised over diethanolamine (DEA) derivatives because they may form nitrosamines, which are potential carcinogens, especially when exposed to high temperatures or sunlight.
Commonly found in car wash soaps and tire cleaning products due to its foam-enhancing and degreasing properties, which help lift away dirt and oil residues.
Lauric acid diethanol amide (Loxiol 1010) is used as an anti-foaming agent and emulsifier to improve paint stability, flow, and spreadability.
In some pesticide formulations, Lauramide DEA acts as a wetting and spreading agent to increase product adherence to plant surfaces.
Used to stabilize emulsions and improve consistency in ink formulations.
As a processing aid in rubber and plastic manufacturing, it can reduce friction and provide anti-static properties.
Lauric acid diethanol amide (Loxiol 1010) is compatible with water and oil-based systems, making it versatile across a range of product types.
It works optimally in products with a neutral to slightly acidic pH, which aligns with most skin and hair care formulations.
Lauric acid diethanol amide (Loxiol 1010) works well in combination with other anionic or non-ionic surfactants, enhancing foam, thickness, and stability.
Lauric acid diethanol amide (Loxiol 1010), can react with nitrosating agents to form nitrosamines, which are potentially carcinogenic.
Manufacturers may include stabilizers to prevent nitrosamine formation, or use nitrosamine-free alternatives.
These products should be stored away from sources of nitrates and in cool, dark places to minimize nitrosamine formation.
Many countries regulate the allowable concentrations of Lauric acid diethanol amide (Loxiol 1010) in personal care products, especially in rinse-off products like shampoos and body washes, due to these potential risks.
Some regions require DEA-based ingredients to be labeled and may restrict their use in products intended for sensitive groups, such as children.
Lauric acid diethanol amide (Loxiol 1010) is considered biodegradable and thus has a relatively low environmental footprint.
However, it can still contribute to waterway pollution if disposed of in large quantities or improperly treated during manufacturing.
Melting point: 45-48℃
Boiling point: 429.73°C (rough estimate)
Density: 0.9610 (rough estimate)
vapor pressure: 0.002Pa at 20℃
refractive index: 1.4545 (estimate)
storage temp.: -20°C Freezer
solubility: Chloroform (Slightly), Methanol (Slightly)
form: Solid
pka: 14.13±0.10(Predicted)
color: White to Off-White
Water Solubility: 49.91mg/L at 20℃
LogP: 3.48
The chemical structure of v can be described as a diethanolamide derivative of lauric acid, which consists of a lauric acid moiety (a 12-carbon saturated fatty acid) bonded to two hydroxyethyl groups from diethanolamine.
Approximately 241.4 g/mol, which contributes to its physical properties as a viscous, waxy solid or semi-solid at room temperature.
The two hydroxyethyl groups increase the hydrophilicity of the compound, allowing it to interact effectively with both hydrophobic (oil) and hydrophilic (water) substances.
Compared to many synthetic surfactants, Lauric acid diethanol amide (Loxiol 1010) is often perceived as milder and less irritating to skin and eyes, making it suitable for sensitive formulations, such as baby products or hypoallergenic items.
Its thickening and emulsifying properties allow formulators to create a wide range of textures—from light gels to rich creams—tailored to specific consumer preferences.
Lauric acid diethanol amide (Loxiol 1010) remains stable across a variety of pH levels and temperatures, contributing to the overall shelf-life of the product.
Lauric acid diethanol amide (Loxiol 1010) is generally cost-effective, providing good performance at a reasonable price, which is particularly attractive to manufacturers looking to keep costs down.
While considered mild, there is still a risk of skin sensitization or allergic reactions in some individuals, especially when used in high concentrations.
The potential for nitrosamine formation is a significant concern, particularly for rinse-off products.
Manufacturers must implement controls to mitigate this risk.
In hard water conditions, the effectiveness of certain surfactants, including Lauric acid diethanol amide (Loxiol 1010), may be reduced due to calcium and magnesium ions forming insoluble salts.
There is a growing consumer demand for natural and plant-derived ingredients in personal care and cosmetic formulations.
As a result, manufacturers may explore plant-based amides or alternative emulsifiers to replace synthetic ingredients.
Many companies are focusing on sustainable sourcing and manufacturing practices.
Lauric acid diethanol amide (Loxiol 1010), often derived from palm oil or coconut oil, has raised sustainability concerns.
Manufacturers are looking for certified sustainable sources or alternatives to minimize their environmental impact.
Ongoing research and regulatory scrutiny concerning the safety of Lauric acid diethanol amide (Loxiol 1010) derivatives could lead to stricter regulations in the future, influencing market dynamics and potentially increasing the demand for safer alternatives.
As personal care products evolve, formulators are innovating new formulations that maximize the benefits of Lauric acid diethanolamide while minimizing risks, including combining it with safer surfactants and stabilizers.
An alcohol and amide. Flammable and/or toxic gases are generated by the combination of alcohols with alkali metals, nitrides, and strong reducing agents.
They react with oxoacids and carboxylic acids to form esters plus water.
Oxidizing agents convert them to aldehydes or ketones.
Alcohols exhibit both weak acid and weak base behavior.
They may initiate the polymerization of isocyanates and epoxides.
Organic amides/imides react with azo and diazo compounds to generate toxic gases.
Flammable gases are formed by the reaction of organic amides/imides with strong reducing agents.
Amides are very weak bases (weaker than water).
Imides are less basic yet and in fact react with strong bases to form salts.
That is, they can react as acids. Mixing amides with dehydrating agents such as P2O5 or SOCl2 generates the corresponding nitrile.
The combustion of these compounds generates mixed oxides of nitrogen (NOx).
Lauric acid diethanol amide (Loxiol 1010)s are the plastics additives brand names of Emery Oleochemicals.
Lauric acid diethanol amide (Loxiol 1010)s are based on natural resources for the processing of plastics materials.
The main product groups and functions we offer are: Lubricants – Optimize the processing characteristics of plastics materials.
Lauric acid diethanol amide (Loxiol 1010)s improve the rheology of the polymer melt by reducing friction and resistance to flow within the melt.
Lauric acid diethanol amide (Loxiol 1010) influence on the mechanical properties, machinery output and surface finish of the final product.
After the thermoplastic conversion like for example extrusion or injection molding, the additive migrates to the plastics surface to avoid the buildup of static charge.
Residual antistatic agent in the polymer bulk serves as a reservoir in case the material at the surface is removed in any way.
The antistatic performance can be strongly influenced by the environmental conditions, i.e. mainly the humidity.
This is why the reproducible determination of the antistatic effect requires defined conditions, preferably in a climate chamber.
Uses:
Lauric acid diethanol amide (Loxiol 1010) is used in preparation method of water-absorbent resin for improving anti-caking performance.
Enhances foam production and stability, improves cleansing ability, and provides conditioning benefits.
Acts as a thickening agent and improves the texture and feel of the product.
Provides mild cleansing properties, making it suitable for sensitive skin formulations.
Lauric acid diethanol amide (Loxiol 1010) is used as an emulsifier to help blend oil and water components, contributing to a smooth texture.
Functions as an emulsifier and helps stabilize formulations that contain both oil and water.
Commonly found in multi-surface cleaners, laundry detergents, and dishwashing liquids for its cleaning and emulsifying properties.
Lauric acid diethanol amide (Loxiol 1010) is used in car wash soaps and tire cleaning products to aid in foam generation and dirt removal.
Acts as an anti-foaming agent and emulsifier to enhance product consistency and application.
Lauric acid diethanol amide (Loxiol 1010) is used as a wetting and spreading agent to improve adherence to plant surfaces, enhancing the effectiveness of active ingredients.
May be used as an emulsifier in some food products, although its use is less common compared to other emulsifiers.
Lauric acid diethanol amide (Loxiol 1010) is used to improve the softness and anti-static properties of textiles.
Functions as a dispersing agent and stabilizer in dye formulations.
Acts as a lubricant and coolant in machining processes, reducing friction and wear.
Lauric acid diethanol amide (Loxiol 1010) is used as a processing aid to enhance flow properties and reduce friction during manufacturing processes.
Occasionally used in formulations as an emulsifier or stabilizer, though this is less common than in other industries.
Improves the smoothness and manageability of hair in conditioners and leave-in treatments.
In gels and mousses, it provides hold and structure while enhancing shine.
Acts as a humectant and thickener, improving the product's spreadability and feel on the skin.
Helps to dissolve makeup while providing a gentle cleansing action.
Contributes to foam formation and enhances the sensory experience during use.
Provides effective emulsification of oils and dirt, improving cleaning efficiency on various surfaces.
Enhances the stability and performance of disinfectant formulations by aiding in the solubilization of active ingredients.
Acts as a surfactant to improve dirt removal and fabric softening properties in both liquid and powder formulations.
Lauric acid diethanol amide (Loxiol 1010) helps in emulsifying grease and oil stains for better removal.
Lauric acid diethanol amide (Loxiol 1010) enhances the spread and coverage of pesticide sprays on plant surfaces, improving efficacy and reducing runoff.
Used in various manufacturing processes to control foaming, particularly in processes involving heating and mixing.
Helps maintain the uniform distribution of pigments and prevents settling in water-based paints.
Improves the wettability of surfaces, facilitating better coverage during application.
Lauric acid diethanol amide (Loxiol 1010) is used in certain food applications to stabilize emulsions, although usage must comply with food safety regulations.
Improves the feel of fabrics and helps reduce static cling.
Aids in fixing dyes to fibers, ensuring better color retention and wash fastness.
Lauric acid diethanol amide (Loxiol 1010) enhances the performance of nonwoven materials used in personal care products like wipes and diapers.
Creates stable emulsions that prevent the separation of oil and water phases, crucial for many cosmetic and personal care products.
Contributes to the creation and maintenance of stable foam in products like shampoos and body washes, enhancing the sensory experience for users.
Provides viscosity control, allowing formulators to achieve desired textures without the need for synthetic thickeners.
Works well with other surfactants and ingredients, allowing for formulation flexibility and improved overall product performance.
As consumers increasingly seek natural and eco-friendly products, formulators are exploring alternatives and modifications to reduce reliance on synthetic ingredients while maintaining the benefits of Lauric acid diethanol amide (Loxiol 1010).
Ongoing regulatory changes may affect the use of diethanolamine derivatives, leading to innovations in formulation strategies to ensure compliance and safety.
Growing awareness of ingredient safety may influence purchasing decisions, prompting brands to highlight the mildness and effectiveness of Lauric acid diethanol amide (Loxiol 1010) in their products.
Safety Profile
While generally considered mild compared to other surfactants, Lauric acid diethanol amide (Loxiol 1010) can still cause skin and eye irritation in some individuals, especially with prolonged or repeated exposure. This is particularly relevant in personal care products.
Some people may develop allergic reactions or sensitization over time, necessitating caution in formulation concentrations.
Dust or aerosols generated during the handling of powdered forms may pose respiratory hazards.
Inhalation of dust may cause irritation to the respiratory tract.
Some surfactants can have harmful effects on aquatic organisms.
If released into the environment, Lauric acid diethanol amide (Loxiol 1010) could contribute to water pollution, necessitating proper waste disposal methods.
While many fatty acid derivatives are biodegradable, the rate of biodegradation can vary.
Regulatory assessments may be required to evaluate the environmental impact of formulations containing this compound.
There is potential for the formation of nitrosamines (some of which are carcinogenic) when Lauric acid diethanol amide (Loxiol 1010) derivatives are used in formulations, particularly in the presence of nitrosating agents.
This has raised safety concerns in various applications.
Due to the risk of nitrosamine formation, regulations may be imposed regarding the use of DEA derivatives in personal care and household products.
