ISOSTEARIC ACID

Isostearic acid is a methyl branched fatty acid that is heptadecanoic acid (margaric acid) substituted at the 16 position by a methyl group. Isostearic acid (16-methylheptadecanoic acid), methyl branched poly (hydroxyalkanoate) are in the synthesis of biosorfactants and silver nanoparticles. Isostearic acid is a slightly branched, liquid fatty acid produced by the reaction of oleic acid with a natural mineral catalyst.

CAS NO: 2724-58-5

SYNONYM:

Isooctadecanoic acid; 16-METHYLHEPTADECANOIC ACID; 2724-58-5; 30399-84-9; UNII-LZM5XA0ILL; 16-methyl margaric acid; 16-methyl-heptadecanoic acid; Heptadecanoic acid, 16-methyl; LZM5XA0ILL; EINECS 220-336-3; CHEBI:84896; Prisorine 3509; Isostearic acid; 16-methylmargaric acid; DSSTox_CID_7963; DSSTox_RID_78624; DSSTox_GSID_27963; SCHEMBL15489; KSC223A3R; CHEMBL1865303; DTXSID1040790; CTK1C3038; ZINC4556536; Tox21_302276; LMFA01020014; MFCD00044082; NCGC00164392-01; NCGC00164392-02; NCGC00255115-01; AS-57253; Isostearic acid, >=97% (capillary GC); LS-74183; CAS-30399-84-9; C20356; J-016709

Isostearic acid is a lightly-branched, liquid fatty acid produced by the reaction of oleic acid with a natural mineral catalyst  there is no chemical addition in this reaction, isostearic acid is based 100% on the parent oil or fat. Isostearic acid is used in applications which require a liquid fatty acid with exceptional stability: thermal stability in the case of a lubricant, odour stability for a cosmetic formulation, and oxidation stability for products with long shelf-life requirements. The branching structure of isostearic acid also enhances its dispersing power, and it is used in cosmetic and industrial applications for the stabilisation of pigments and mineral particles in oils and solvents.

There are no chemical additives in this reaction, isostearic acid is 100% on the main oil or oil. Isostearic acid is used in applications that require an oil acid with exceptional stability: thermal stability in the case of a lubricant, odor stability for a cosmetic formulation, and oxidation stability for products with a long shelf life. The branching nature of isostearic acid also increases the dispersion power and is used in cosmetic and industrial applications for stabilization of pigments and mineral particles in oils and solvents.

Isostearyl alcohol is the alcohol analogue of isostearic acid. Isostearic acid is used in color cosmetics, deodorants and personal care products that provide film-forming and spreading functions. Isostearic acid is an extremely good emollient that feels pleasant and is widely used in skin and body care products. Isostearic acid is an important raw material in the preparation of special surfactants for consumer care products. Stearic acids (more accurately 'stearins', technical mixtures of stearic and palmitic acid) are fatty acids from which unsaturation is completely removed by separation and / or hydrogenation. This results in an increased melting point and a hard material with excellent stability. Isostearic acids are used in the production of wax, soap, rubber compounds, foodstuffs, fabric softeners and cosmetics. Long chain stearins contain slightly higher chain acids; this improves important properties such as lubricity, oil solubility and water resistance.

It functions as both an emollient and co-emulsifier. Isostearic acids are a light yellow liquid that functions both as an emollient and co-emulsifier in personal care formulations. It is used as a smooth, dry sensation emollient that can help the skin to replenish its natural moisture. It also serves as an extremely effective and stable co-emulsifier used in the preparation of Isostearic Acid, Oily Water, low viscosity emulsion systems when neutralized. When included in a formulation instead of stearic acid, isostearic acids turn the oil feel into a non-greasy feel. Applications of Isostearic Acid include skin creams, lotions, moisturizing creams, color cosmetics, sunscreen preparations, and shower gel formulations. Isostearic Acid is a synthetically created fatty acid that is frequently used as a binder in skin and beauty products, although it is also seen in products as a surfactant and emulsifier. Isostearic Acid is used to thicken most formulations as a binder and emulsifier.

There are no chemical additives in this reaction, isostearic acid is 100% on the base oil or oil. Isostearic acid is used in applications that require an oil acid with exceptional stability: thermal stability in the case of a lubricant, odor stability for a cosmetic formulation, and oxidation stability for products with a long shelf life. The branching nature of isostearic acid also increases the dispersion power and is used in cosmetic and industrial applications for stabilization of pigments and mineral particles in oils and solvents. Isostearic acid is used as personal care; emollient in lipsticks, lipgloss, sun creams. Isostearic acid is used as the lubricant; esters with excellent cold resistance.

Isostearic Acid is a clear, oily liquid used in a wide variety of cosmetic and personal care products. Isostearic Acid functions as a surfactant - cleansing agent and a binder. Isostearic acid, a fatty acid, is a mixture of different forms of octadecanoic acid obtained from animal and vegetable fats and oils. Isostearic Acid can be prepared from many sources, including soybean oil or tallow. Isostearic acid is a unique fatty acid. Isostearic acid combines the best performance properties of stearic acid with the best properties of oleic acid. Isostearic acid is a fully saturated, branched fatty acid that provides excellent heat and odor stability. Like oleic acid, Isostearic acid is clear and liquid at room temperature.

Iso stearic Acid is an extremely mild liquid fatty acid that gives a slight slippery feel and can be used in many skin care and color cosmetic applications. Isostearic Acid also offers film-forming properties, making it ideal for use in soaps, shaving foams and liquid cleaners. Isostearic acid is a liquid fatty acid formed by the reaction of oleic acid with a natural mineral catalyst. Isostearic acid production is based entirely on the main oil or fat. Due to its high thermal, odor and oxidation stability, isostearic acid is applied in various industries such as lubricants, personal care, chemical esters, textiles and packaging. The branched nature of isostearic acid increases its dispersion power as it is used in industrial and cosmetic applications for stabilization of pigments and mineral particles in oils and solvents.

Isostearic acid is a slightly branched, liquid fatty acid produced by the reaction of oleic acid with a natural mineral catalyst - there are no chemical additives in this reaction, isostearic acid is 100% resistant to the base oil or fat. Isostearic acid is used in applications requiring an oil acid with exceptional stability: thermal stability in the lubricant state, odor stability for a cosmetic formulation, and oxidation stability for products with long shelf life requirements. The branching nature of isostearic acid also increases the dispersion power and is used for stabilization of pigments and mineral particles in cosmetic and industrial applications, oils and solvents.

IUPAC NAME:
2-heptylundecanoic acid; Isostearic Acid

OTHER NAME:
22890-21-7

Isostearic acid has a larger molecular area and a much lower precipitation pressure than stearic acid. Isostearic acid, a fatty acid, is a mixture of different forms of octadecanoic acid obtained from animal and vegetable fats and oils. Isostearic Acid can be prepared from many sources, including soybean oil or tallow. An extremely soft oil fatty acid that gives a slight slippery feel and can be used in many skin care and color cosmetic applications. It also offers film-forming properties, making it ideal for use in soaps, shaving foams and liquid cleansers. Isostearic Acid is an easily spreading oil alcohol. Isostearic Acid offers moisturizing properties and a very light, silky, soft dry skin feel. Its excellent liquidity and oxidation stability make Isostearic Acid perfect for use in skincare and color cosmetics.

Isostearic acid is our unique, highly branched saturated fatty acid. Unlike straight-chain fatty acids, it has some transparent and odorless properties. In addition, it has excellent heat stability, oxidation resistance, pigment dispersion, defoaming properties and is compatible with various organic solvents. The personal care industry is the main consumer of isostearic acid, where it is used as a binder and emulsifier. Isostearic acid differs from other C18 fatty acids in the same category in several ways. While other C18 fatty acids are produced by splitting fats or oils, isostearic acid is produced as a co-product of a tightly controlled reaction to synthesize dimerized fatty acids. The structural structure of isostearic acid also has a valuable combination of saturation and branching compared to other fatty acids such as stearic acid and oleic acid.

This array of properties makes isostearic acid a versatile building block for high-value applications in synthetic lubricants, metal stamping and forming, coatings and personal care products. The properties of isostearic acid give thermal stability, oxidative stability, surface activity, slipperiness, low color and feel in multiple formulations. Isostearic acid is used as is in some cases, but is also derivatized to form isostearyl alcohols, amides and esters to further expand its reach in many industries and applications.

Isostearic acid functions as both an emollient and co-emulsifier. Isostearic acid is a light yellow liquid used in personal care formulations because Isostearic acid functions as both an emulsifier and a co-emulsifier. It acts as a smooth, dry-feeling emollient that helps replenish the skin's natural moisture. In addition, when neutralized, Isostearic Acid acts as an extremely effective and stable co-emulsifier used in the preparation of low viscosity emulsion systems. When included in a formulation instead of stearic acid, Isostearic acid reduces the oil feel to a non-greasy feel. Applications include skin creams, lotions, moisturizing creams, color cosmetics, sunscreen preparations, and shower gel formulations.

Isostearic acid is a vegetable-derived oil fatty acid that offers a slightly slippery skin feel, preventing the dry after-sensation from topical products. Isostearic acid supports low viscosity for good spreading and acts as a cleaning agent, softener and super lubricant and is compatible with cold work. Isostearic acid is used as a water-oil emulsifier and in many cosmetic products such as cleansers, sunscreens and deodorants. Isostearic acid has softening properties and gives products a silky feel. It is a naturally sourced ingredient and is completely biodegradable.

Isostearic acid is a methyl branched fatty acid used as a binder, surfactant, dispersant in various industries including personal care, chemical esters, lubricants and greases, textiles and packaging. Consumer spending on cosmetic products is on the rise due to high fashion awareness, increased purchasing power and an increasing aging population. Increasing awareness among consumers of the hazardous nature of petrochemical products increases their interest in bio ingredients that drive the growth of the global isostearic acid market. Based on the end user, the global isostearic acid market is categorized as chemical esters, personal care, lubricants and greases and others (including textile, degreasing, rubber and polymer, and industrial and institutional cleaning). In 2014, chemical esters dominated the global isostearic acid end-user market with a share of 35.7% on volume and 36.7% on value basis. Chemical esters derived from isostearic acid are used as ingredients to produce skin care and cosmetic products such as hair care products, lipsticks and sunscreen creams.

The demand for chemical esters derived from isostearic acid is due to their strong dispersion and adhesion and their multifunctional properties such as softening and water-repellent structure. Some of the key factors behind the growth of the global isostearic acid market are the growing cosmetics market and the growing lubricants and grease industry. The growing automotive industry, combined with massive industrial growth in the emerging markets of Asia-Pacific and Africa, is driving the growth of the lubricants and greases market globally, which supports the growth of the global isostearic acid market. With the lubricants and greases industry having a low share in the overall isostearic acid market, the impact of the growing lube oil and grease industry on the global isostearic acid market is expected to be moderate in the short term. However, due to continuous innovation and diverse applications of acid in the lubricants and greases industry, the demand for isostearic acid in the industry is expected to grow faster than in other end-user industries. Because of these factors, the impact of the growing lube oil and grease industry on the global isostearic acid market is predicted to be high in the medium to long term.

Isostearic acid is a fatty acid containing a chain of 18 carbon atoms. The IUPAC name for isostearic acid is octadecanoic acid. Isostearic acid is a yellow solution and its chemical formula is C18H36O2. Isostearic acid is a saturated solution of carbon. It occurs naturally in meat products and vegetable oils. The molecular mass of isostearic acid is 284.48 g / mol. Isostearic acid is soluble in many oils and is used as an emulsifier or dispersant. The main factor driving the growth of the isostearic acid market is the increasing demand for the lubricants and greases industry. In addition, the increasing demand for cosmetic products increases market growth in various regions. In addition, the increase in end uses such as adhesives, coatings and paints, solvents and many more serve as a driving force for the growth of the market. However, its high cost for end-user industries acts as a constraint for the growth of the market. In addition, there are numerous alternative solutions that are abundant in the market at lower prices, such as palmitic acid, lauric acid, stearic acid, myristic acid, oleic acid, coconut fatty acid and many more, hinder market growth. Increased public awareness of health and hygiene and increased environmental safety regulations are expected to accelerate the growth of industrial and institutional chemicals that create growth opportunities for the market.

Isostearic acid is a slightly branched, liquid fatty acid produced by the reaction of oleic acid with a natural mineral catalyst. There is no chemical additive in this reaction, isostearic acid is 100% resistant to the main oil or oil. Isostearic acid is used in applications requiring an oil acid with exceptional stability: thermal stability in the lubricant state, odor stability for a cosmetic formulation, and oxidation stability for products with long shelf life requirements. The branching nature of isostearic acid also increases the dispersion power and is used for stabilization of pigments and mineral particles in cosmetic and industrial applications, oils and solvents. Vegetable oils and animal fats are important and established raw materials for the production of chemicals and ingredients. Since its emergence more than 150 years ago, the oleochemical industry has grown in scale and diversity and has become an important branch of the chemical industry.

With the increasing emphasis on renewable and sustainable industrial applications, oleochemistry has gained new momentum as a way to develop alternatives to fossil-derived products. This chapter reviews the role of catalysis and catalyst development in isostearic acid production as an example of recent research in oleochemistry. Starting with a brief history of the oleochemical industry, we trace the development of isostearic acid and other branched fatty acids. The special properties of isostearic acid have been demonstrated by its use in applications where standard fatty acids are not accessible. Finally, we present the latest developments in zeolite catalysis; The step change in yields and selectivities achieved by these new means shows the potential that proper catalyst design can bring to open important new markets and applications for oleochemicals.

Isostearic acid is a fatty acid produced by reacting oleic acid with other natural mineral catalysts. It is slightly branched and clear yellow in color. The growing demand for isostearic acid as a key ingredient in the production of cosmetics and personal care products such as skincare, hair care, sun protection cream, lipstick cosmetics, bath and shower products, and liquid soaps is driving the isostearic market forward. Isostearic acid has superior properties such as odor stability, thermal stability and resistance to ultraviolet rays. Due to these properties, the demand for isostearic acid in cosmetics and personal care is likely to increase over the forecast period. The global cosmetics and personal care industry is expected to grow at a CAGR of over 4% in the forecast period. Therefore, there will be an increase in the demand for isostearic acid and therefore stimulate its market during the forecast period. Due to all the factors mentioned above for isostearic acid, its market is expected to grow rapidly during the forecast period.

Isostearic acid acts as a smooth, dry-feeling emollient that helps the skin replenish its natural moisture. In addition, Isostearic Acid when neutralized acts as a highly effective and stable co-emulsifier in low viscosity emulsion systems used in the preparation of oil in water. When included in a formulation instead of stearic acid, it reduces the oily feel to a non-greasy feel. Isostearic Acid applications include skin creams, lotions, moisturizing creams, color cosmetics, sunscreen preparations, and shower gel formulations. Isostearic Acid is a clear, oily liquid used in a wide variety of cosmetics and personal care products. Isostearic Acid functions as a surfactant - cleansing agent and a binder. Isostearic acid, a fatty acid, is a mixture of different forms of octadecanoic acid obtained from animal and vegetable fats and oils. Isostearic Acid can be prepared from many sources, including soybean oil or tallow. Isostearic acid is a unique fatty acid. Isostearic acid combines the best performance properties of stearic acid with the best properties of oleic acid. Isostearic acid is a fully saturated, branched fatty acid that provides excellent heat and odor stability. Like oleic acid, Isostearic acid is clear and liquid at room temperature. Isostearic Acid is an extremely mild liquid fatty acid that gives a slight slippery feel and can be used in many skin care and color cosmetic applications.

Isostearic Acid also offers film-forming properties, making it ideal for use in soaps, shaving foams and liquid cleaners. Isostearic acid is a liquid fatty acid formed by the reaction of oleic acid with a natural mineral catalyst. Isostearic acid production is based entirely on the main oil or fat. Due to its high thermal, odor and oxidation stability, isostearic acid is applied in various industries such as lubricants, personal care, chemical esters, textiles and packaging. The branched nature of isostearic acid increases its dispersion power as it is used in industrial and cosmetic applications for stabilization of pigments and mineral particles in oils and solvents.

Isostearic acid is a slightly branched, liquid fatty acid produced by the reaction of oleic acid with a natural mineral catalyst - there are no chemical additives in this reaction, isostearic acid is 100% resistant to the base oil or fat. Isostearic acid is used in applications requiring an oil acid with exceptional stability: thermal stability in the lubricant state, odor stability for a cosmetic formulation, and oxidation stability for products with long shelf life requirements. The branching nature of isostearic acid also increases the dispersion power and is used for stabilization of pigments and mineral particles in cosmetic and industrial applications, oils and solvents.

Isostearic acid has a larger molecular area and a much lower precipitation pressure than stearic acid. Isostearic acid, a fatty acid, is a mixture of different forms of octadecanoic acid obtained from animal and vegetable fats and oils. Isostearic Acid can be prepared from many sources, including soybean oil or tallow. An extremely soft oil fatty acid that gives a slight slippery feel and can be used in many skin care and color cosmetic applications. It also offers film-forming properties, making it ideal for use in soaps, shaving foams and liquid cleansers. Isostearic Acid is an easily spreading oil alcohol. Isostearic Acid offers moisturizing properties and a very light, silky, soft dry skin feel. Its excellent liquidity and oxidation stability make Isostearic Acid perfect for use in skincare and color cosmetics.

The personal care industry is the main consumer of isostearic acid, where it is used as a binder and emulsifier. Isostearic acid differs from other C18 fatty acids in the same category in several ways. While other C18 fatty acids are produced by splitting fats or oils, isostearic acid is produced as a co-product of a tightly controlled reaction to synthesize dimerized fatty acids. The structural structure of isostearic acid also has a valuable combination of saturation and branching compared to other fatty acids such as stearic acid and oleic acid. This array of properties makes isostearic acid a versatile building block for high-value applications in synthetic lubricants, metal stamping and forming, coatings and personal care products. The properties of isostearic acid give thermal stability, oxidative stability, surface activity, slipperiness, low color and feel in multiple formulations. Isostearic acid is used as is in some cases, but is also derivatized to form isostearyl alcohols, amides and esters to further expand its reach in many industries and applications. It functions as both an emollient and co-emulsifier.

It is a light yellow liquid used in personal care formulations because it functions as both an emulsifier and a co-emulsifier. It acts as a smooth, dry-feeling emollient that helps replenish the skin's natural moisture. In addition, when neutralized, Isostearic Acid acts as an extremely effective and stable co-emulsifier used in the preparation of low viscosity emulsion systems. When included in a formulation instead of stearic acid, it reduces the oil feel to a non-greasy feel. Applications include skin creams, lotions, moisturizing creams, color cosmetics, sunscreen preparations, and shower gel formulations. Isostearic acid is a methyl branched fatty acid used as a binder, surfactant, dispersant in various industries including personal care, chemical esters, lubricants and greases, textiles and packaging. Consumer spending on cosmetics is on the rise due to high fashion awareness, increased purchasing power and an increasing aging population. Increasing awareness among consumers of the hazardous nature of petrochemical products increases their interest in bio ingredients that drive the growth of the global isostearic acid market.

Based on the end user, the global isostearic acid market is categorized as chemical esters, personal care, lubricants and greases and others (including textile, degreasing, rubber and polymer, and industrial and institutional cleaning). In 2014, chemical esters dominated the global isostearic acid end-user market with a share of 35.7% on volume and 36.7% on value basis. Chemical esters derived from isostearic acid are used as ingredients to produce skin care and cosmetic products such as hair care products, lipsticks and sunscreen creams. The demand for chemical esters derived from isostearic acid is due to their strong dispersion and adhesion and their multifunctional properties such as softening and water-repellent structure.

Some of the key factors behind the growth of the global isostearic acid market are the growing cosmetics market and the growing lubricants and grease industry. The growing automotive industry, combined with massive industrial growth in the emerging markets of Asia-Pacific and Africa, is driving the growth of the lubricants and greases market globally, which supports the growth of the global isostearic acid market. With the lubricants and greases industry having a low share in the overall isostearic acid market, the impact of the growing lube oil and grease industry on the global isostearic acid market is expected to be moderate in the short term. However, due to continuous innovation and diverse applications of acid in the lubricants and greases industry, the demand for isostearic acid in the industry is expected to grow faster than in other end-user industries. Because of these factors, the impact of the growing lube oil and grease industry on the global isostearic acid market is predicted to be high in the medium to long term. The main factor driving the growth of the isostearic acid market is the increasing demand for the lubricants and greases industry.

In addition, the increasing demand for cosmetic products increases market growth in various regions. In addition, the increase in end uses such as adhesives, coatings and paints, solvents and many more serve as a driving force for the growth of the market. However, its high cost for end-user industries acts as a constraint for the growth of the market. In addition, there are numerous alternative solutions that are abundant in the market at lower prices, such as palmitic acid, lauric acid, stearic acid, myristic acid, oleic acid, coconut fatty acid and many more, hinder market growth. Increased public awareness of health and hygiene and increased environmental safety regulations are expected to accelerate the growth of industrial and institutional chemicals that create growth opportunities for the market. Vegetable oils and animal fats are important and established raw materials for the production of chemicals and ingredients.

Since its emergence more than 150 years ago, the oleochemical industry has grown in scale and diversity and has become an important branch of the chemical industry. With the increasing emphasis on renewable and sustainable industrial applications, oleochemistry has gained new momentum as a way to develop alternatives to fossil-derived products. This chapter reviews the role of catalysis and catalyst development in isostearic acid production as an example of recent research in oleochemistry. Starting with a brief history of the oleochemical industry, we trace the development of isostearic acid and other branched fatty acids. The special properties of isostearic acid have been demonstrated by its use in applications where standard fatty acids are not accessible. Finally, we present the latest developments in zeolite catalysis; The step change in yields and selectivities achieved by these new means shows the potential that proper catalyst design can bring to open important new markets and applications for oleochemicals