ALKYL ETHER CARBOXYLATE

ALKYL ETHER CARBOXYLATE

ALKYL ETHER CARBOXYLATE

Alkyl Ether Carboxylate = Ether carboxylate = POLYOXYETHYLENE ALKYL ETHER CARBOXYLIC ACID SODIUM SALT = ETHOXYLATED ALCOHOL + SODIUM CHLOROACETATE =  Sodium alkyl ether carboxylate

Alkyl Ether Carboxylate is an alkyl ether carboxylic acid salt that is an anionic surfactant composed from alkylethoxylated acetic acid salt.

Alkyl Ether Carboxylate provides a similar refreshing feeling to soap, is biodegradable and resistant to hard water.

Alkyl Ether Carboxylate is a suitable ingredient for products with a neutral formulation, it can be used in shampoos, body soaps, dishwashing detergents, and more.

Ether carboxylate is one of the major sub-types of a carboxylate which is produced from the reaction of ethoxylated alcohols with sodium chloracetate.

Its manufacturing process involves etherification where a carboxyl group-containing compound and a hydroxyl group-containing compound are reacted in an aqueous medium with the help of a rare earth element containing catalyst.

The carboxyl group containing compound present in the reaction is one compound which is selected from carboxyl group containing epoxy compounds as well as unsaturated carboxyl group containing compounds.

Ether carboxylates are widely used in personal care products, surfactants, admixtures applied in the construction as well as serve as the vital component of superplasticizers.
As surfactants, ether carboxylate produces an ultralow interfacial tension (IFT) under high temperature and high salinity conditions.
Their consumption in the textile industry is based on their electrolyte, alkali, and hard water stability as well as their good wetting and detergent properties.

As compared to cold process soaps, ether carboxylates are less sensitive to hard water and more soluble in water.
In addition, they impart good wetting and foam stabilizing properties as well as provide creaminess and mildness in the finished products.
Owing to their property of being substantive to hair and skin, ether carboxylate exhibits a conditioned feeling to the human body.
When combined with alkyl ether sulfates such as sodium laureth sulfate, they are used for manufacturing shampoos on account of their compatibility with cationic ingredients.

The global market for ether carboxylate has been witnessing a significant increase on account of growth of its application industries such as personal care and surfactants.
Ether carboxylate shares a wide application scope in various industries such as soaps, detergents, textiles, shampoos, and plasticizers among others.

In addition, bio-based surfactants has emerged as one of the major opportunities for the growth of the surfactant industry due to growing awareness among consumers towards eco-friendly products which in turn has contributed towards the growing demand for ether carboxylate in surfactants.
Major applications of ether carboxylate-based surfactants include detergents, pharmaceuticals, textile and personal care among others.

Other applications of ether carboxylate include the manufacturing of plasticizers.
The market for ether carboxylate in plasticizer has been witnessing significant growth on account of emerging economies and changing lifestyles.
In addition, rising environmental awareness coupled with increasing legal provisions have been serving as catalysts for the plasticizers market in certain emerging economies such as India, China, Russia and Brazil.

While matured regions such as North America and Europe accounted for the highest demand for ether carboxylate due to presence of vast and skin care and hair care industries, emerging regions such as Asia Pacific are anticipated to witness the fastest growth over the next few years on account of vast textile industries in economies such as China as well as growing demand for personal care products.
Various factors such as rising awareness regarding healthy hair and skin among consumers as well as changing lifestyles are expected to boost the demand for personal care products which in turn is anticipated to contribute towards the demand for ether carboxylate.

Growing demand for personal care products such as skin care and hair care on account of increasing awareness for healthy skin and hair is anticipated to be on the major factors driving the market for ether carboxylate.

However, fluctuating prices of key feedstock materials has been major concern for the manufacturers and is expected to limit the growth of the market.
Focus on commercializing and developing cost-effective bio-based surfactants using ether carboxylate is anticipated to provide new opportunities for the growth of the market.

Alkyl ether carboxylate is one type of surfactant that can produce ultra low interfacial tension (IFT) under high-salinity and high-temperature conditions.

Alkyl Ether Carboxylate products offer a wide range of secondary surfactants with excellent tolerance against hard water.
Depending on the carbon chain length and the ethoxylation degree Alkyl Ether Carboxylates show characteristic application properties.

Alkyl Ether Carboxylates with a chain length from C4 to C8, are low foaming surfactants with high dispersing and hydrotropic abilities.

Alkyl Ether Carboxylates with a C12-C14 alkyl chain offer good foaming at different pH s.

Alkyl Ether Carboxylates are mild co-surfactants and function as emulsifiers and solubilizers.

Alkyl Ether Carboxylate brings excellent lime soap dispersing properties and add some anti-corrosion benefits.It can be used in conveyor belt lubricants.

All types of Alkyl Ether Carboxylates show outstanding pH stability and high tolerance against electrolytes and builders.

Alkyl Ether Carboxylate is extremely mild and compatible with other surfactants as well as ideal as co–surfactants and coupling agents.

Alkyl Ether Carboxylic acids and their salts have been used in Personal Care products for many years due to their extremely good skin and eye mildness, good ecotoxicological properties, and good compatibility with all kinds of surfactants – including cationic type surfactants and specific additives such as cationic polymers in shampoos and bath gels.

Alkyl Ether Carboxylic acids included in the range differ from each other in the degree of ethoxylation and in the alkyl chain length.
For cosmetic applications, vegetable origin fatty alcohols are used, mainly coconut alkyl chain (C12/14), because of the high foaming properties required for cleansing products.
Investigations on the use and properties of Alkyl Ether Carboxylates in several types of cosmetic products have demonstrated that in combination with other raw materials, they improve skin and hair conditioning because of the low interference with cationic surfactants.
They can act as rapid foam boosters (1), and are good solubilizing agents for hydrophobic materials such as silicones -thereby improving hair shine, among many other uses.

It has been found that Alkyl Ether Carboxylic acids and their salts enhance coacervate formation, affording higher polymer deposition on skin and hair and hydrophobic raw materials such as oils and silicones.
These coacervates are also regarded as potential vehicles for delivering particles dispersed in cleanser base onto the hair or skin surface, for instance antidandruff agents such as zinc pyrithione.

POLYOXYETHYLENE ALKYL ETHER CARBOXYLIC ACIDS
Unique properties of POLYOXYETHYLENE ALKYL ETHER CARBOXYLIC ACIDS arise from the combination of the nonionic, temperature-responsive polyoxyethylene block with the weakly ionic, pH-responsive carboxylic acid termination in a single surfactant headgroup.
Accordingly, this class of surfactant finds broad application across very different sectors.
Despite their large use of POLYOXYETHYLENE ALKYL ETHER CARBOXYLIC ACIDS on an industrial and a technical scale, the literature lacks a systematic and detailed characterization of their physico-chemical properties which is provided herein.
In addition, a comprehensive overview is given of their self-assembly and interfacial behavior, of their use as colloidal building blocks and for large-scale applications.

Ether carboxylate is significant sub-kinds of a carboxylate that is developed from the reaction of ethoxylated alcohols and sodium chloroacetate.
Its assembling procedure includes etherification for a carboxyl group and a hydroxyl group-containing compound is responded in a watery medium with the assistance of an uncommon earth component containing impetus.

Ether carboxylates are broadly utilized in close to home consideration items, surfactants, admixtures connected in the development just as fill in as the imperative segment of superplasticizers.
Being surfactants, ether carboxylate produces an ultra-low interfacial pressure (IFT) under high temperature and high saltiness solutions.
Their utilization in the material business depends on their electrolyte, soluble base, and hard water security just as their great wetting and cleanser properties.
Thanks to these enhanced properties the demand for the product is rising substantially, which is boosting the growth of the global ether carboxylates market.

The global ether carboxylate market is witnessing a critical increment by virtue of the development of ether carboxylates application across industries surfactants and personal care.
Ether carboxylate has a wide application scope in different businesses including soaps & detergents and textiles, plasticizers, and shampoos.
Growing awareness about the importance of hygiene is driving the growth of the global ether carboxylates market.

Additionally, bio-based surfactants have risen as one of the significant open doors for the development of the surfactant business because of developing mindfulness among shoppers towards eco-accommodating items which thusly has contributed towards the developing interest for ether carboxylate in surfactants.
Real utilizations of ether carboxylate-based surfactants incorporate cleansers, pharmaceuticals, material and individual consideration among others.
These extensive applications are likely to drive the growth of the global ether carboxylates market.

All qualities show outstanding pH stability and high tolerance against electrolytes and builders.

Chemical Description    Form    Active %
POTASSIUM LAURETH-4 CARBOXYLATE (2,5 EO)S    Pas    60
SODIUM LAURETH-5 CARBOXYLATE (4 EO)    Pas    60
CAPRYLETH-6 CARBOXYLIC ACID    Liq    92
CAPRYLETH-9 CARBOXYLIC ACID    Liq    92
CAPRYLETH-9 / HEXETH-4 CARBOXYLIC ACID    Liq    90
CAPRYLETH-9 / BUTETH-2 CARBOXYLIC ACID    Liq    90
BUTETH-6 CARBOXYLIC ACID    Liq    > 80
Lauryl / Myristyl Ether Carboxylic Acid (>3 EO)    Liq    92
OLETH-12 CARBOXYLIC ACID (10.5 EO)    Liq    90
LAURETH-11 CARBOXYLIC ACID (10 EO)    Liq    90
LAURETH-4 CARBOXYLIC ACID (2.5 EO)    Liq    95
LAURETH-6 CARBOXYLIC ACID (4.5 EO)    Liq    92
SODIUM LAURETH-6 CARBOXYLATE (4.5)    Liq    28
OLETH-3 CARBOXYLIC ACID (2 EO)    Liq    95
OLETH-3 CARBOXYLIC ACID (5 EO)    Liq    92
OLETH-10 CARBOXYLIC ACID (9 EO)    Liq/Pas    90
SODIUM LAURETH-11 CARBOXYLATE (10)    Liq    70
SODIUM LAURETH-6 CARBOXYLATE (4.5)    Liq    22

Alkyl Ether Carboxylates
Extremely mild and compatible with other surfactants as well as ideal as co–surfactants and coupling agents.

Our range includes:

Laureth-11 Carboxylic Acid: Alkyl Ether Carboxylate is a highly active, free-acid, anionic co-surfactant with moderate foaming, designed to improve mildness.
Neutralization of acid can be achieved with a wide range of neutralizing agents.
For use in cleansing products such as shampoo, body wash, and baby care.
Stable over a wide range of pH.
Good detergency and emulsification properties.

Laureth-5 Carboxylic Acid is a highly active, free-acid, anionic co-surfactant with moderate foaming, designed to improve mildness.
Neutralization of acid can be achieved with a wide range of neutralizing agents.
For use in cleansing products such as shampoo, body wash, and baby care.
Stable over a wide range of pH. Good detergency and emulsification properties.

Trideceth-7 Carboxylic Acid is an ethylene oxide condensate.
When converted to a salt by neutralization, a crypto-anionic salt of the base is formed.
Trideceth-7 Carboxylic Acid is compatible with non-ionics, anionics and cationics with detersive wetting and emulsifying properties.
It can be used as a buffer in acid detergents, as a detergent, wetting agent and dispersant in metal cleaning and processing, as a compatibilizing agent in cationic-anionic formulations, and in conditioning shampoos containing anionic detergents and cationic polymers.

Alkyl Ether Carboxylate is an alkyl ether carboxylic acid salt that is an anionic surfactant composed from alkylethoxylated acetic acid salt.

Alkyl Ether Carboxylate provides a similar refreshing feeling to soap, is biodegradable and resistant to hard water.

Alkyl Ether Carboxylate is a suitable ingredient for products with a neutral formulation, it can be used in shampoos, body soaps, dishwashing detergents, and more.

Category Name:  Sodium alkyl ether carboxylate
Substance Name Sodium polyoxyethylene alkyl(C=12～14) ether carboxylate
CAS Number 33939-64-9、50546-32-2

Product Uses and Benefits
Sodium alkyl ether carboxylate (EC) is an anionic surfactant.
EC containing consumer products are widely used as body soaps, facial cleanser, shampoos, hand soaps and others.

Trideceth-4 Carboxylic Acid
Industry Primarily Used    Cosmetics, Pharmaceuticals, Inks & Coatings
Description
Can be neutralized if desired

Chemical Class    Alkyl Ether Carboxylates
CAS Number    56388-96-6