When to Use Phosphate Ester Surfactants？

In organic chemistry, organophosphates (also known as phosphate esters, or OPEs) are a class of organophosphorus compounds with the general structure O=P(OR)3, a central phosphate molecule with alkyl or aromatic substituents. They can be considered as esters of phosphoric acid.

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Like most functional groups, organophosphates can be used in a diverse range of forms, with important examples including insecticides, herbicides, nerve agents, and flame retardants. OPEs have been widely used in various products as flame retardants, plasticizers, and performance additives to engine oil. The popularity of OPEs as flame retardants came as a substitution for the highly regulated brominated flame retardants. The low cost of production and compatibility to diverse polymers made OPEs to be widely used in industry including textile, furniture, electronics as plasticizers and flame retardants. These compounds are added to the final product physically rather than by chemical bond except in polymerisation.

With LANKEM we have fantastic range of OPEs. They can be used in various applications such as Agro, Coatings and Metal Cutting Fluids.

The Lanphos range of phosphate esters is a versatile class of surfactants, possessing many of the surfactant properties useful in the formulation of Industrial and Institutional cleaners than other anionic surfactants, including:

1. Detergency
2. Foaming
3. Emulsification
4. Dispersing
5. Wetting
6. Solubilising

In addition to these, the Lanphos phosphate esters also possess properties not as commonly found in other classes of anionic surfactant, which include:

1. Defoaming
2. Hydrotropicity
3. High electrolyte tolerance
4. Lubricity
5. Corrosion inhibition

Because of the unique chemical structure of phosphate esters, it is possible to design multifunctional surfactants with the required balance of the above properties to give optimum performance in a wide range of applications in the formulation of Industrial and Institutional Cleaners.

The following is a brief introduction to the parameters which you can change in the manufacturing process and chemical composition of phosphate esters that gives rise to these properties.

Effect of Phosphorylating Route

These two phosphorylating agents give products with entirely different compositions. The following table provides typical compositions (in % weight/weight) of products made by these routes.

The choice of phosphorylating agent is essential as the monoester and diester phosphate esters have differing properties. The following table lists the typical differences:

' Phosphorous Pentoxide Polyphosphoric Acid Monoester % 30 ' 75% 80 ' 90% Diester % 60 ' 20% 2% Phosphoric acid % 0.50% 5 ' 10% Free nonionic % 5 ' 15% 1 ' 10% Monoester Diester Hydrotropicity Excellent Poor Electrolyte tolerance Excellent Poor Detergency Fair Good Wetting Fair Excellent Emulsification Excellent (emulsion polymer) Excellent (oils) Foaming Higher Lower Dispersing Fair Excellent

The choice of hydrophobe has as significant an effect on the performance of phosphate esters as does the synthesis route. As previously stated, you can base phosphate esters on ethoxylated nonionic surfactants; however, there are some applications where unethoxylated products are used, such as fatty alcohols. The following table lists some of the properties that you can obtain with the various hydrophobes available:

Hydrophobe Properties Fatty alcohol's (C8 ' C18) Very low foaming/defoaming Poly Aromatic 'Excellent Dispersing (C8 ' C10) Excellent wetting, good detergency low(ish) foaming (C10 ' C14) Fair wetting, good detergency, high(ish) foaming, good emulsification (emulsion polymer) (C14 ' C18) Poor wetting, poor detergency, excellent lubricity, good emulsification (oil) Phenol Excellent hydrotropicity, good lubricant additive

In addition to the chemical nature of the hydrophobe, the degree of ethoxylation also greatly effects the performance of phosphate esters. The following table lists some of the general trends observed when changing the level of ethylene oxide:

EO Content Properties 1 ' 5 moles ethylene oxide Good wetting, good emulsification (oils) 5 ' 15 moles ethylene oxide Good emulsification (emulsion polymer), good dispersing, high electrolyte tolerance

The Lanphos range of phosphate esters is specially developed optimising the above parameters to give exceptional performance in a wide range of applications using the expertise gained over many years of product development. Lankem is open to developing products that meet specific customer needs.

Electrolyte Tolerant Detergents

Phosphate esters can commonly find use in the formulation of highly built detergents. The high electrolyte solubility of these products allows detergents containing high levels of builders, such as caustic soda, silicates, and sequestrants, to be formulated without the need for a hydrotrope. Products for this application include:

1. Lanphos PE245
2. Lanphos PE36
3. Lanphos TE43

Hydrotropes

Phosphate esters-based hydrotrope are amongst the most effective products, allowing the formulation of products containing up to 30% caustic soda.

The following products are in our current range:

1. Lanphos TEP4
2. Lanphos TEP4K

Lanphos Phosphate Ester Recommended Ffor Agrochemicals Applications

Emulsifiers ' Phosphate esters find use in the formulation of emulsifiable concentrates. However, they more commonly find application in more specialised formulations such as suspo-emulsions (suspension concentrates produced in an emulsion). In these formulations, the combination of good emulsification with dispersing makes them an ideal surfactant. Products used include Lanphos PE35 and Lanphos PE36 Dispersants ' Phosphate esters find use as the primary dispersant in the formulation of suspension concentrates and water-dispersible granules. They allow the formulation of stable dispersions with high solid contents.

Want more information on Phosphate Ester Surfactants? Feel free to contact us.

Products used include:

1. Lanphos PET22
2. Lanphos PE35
3. Compatibility Agents ' Phosphate esters can be used to allow the spray application of pesticide at the same time as micronutrients such as manganese sulphate. In this application, it is the hydrotropic and electrolyte tolerance that makes phosphate esters suitable.

Products used include:

1. Lanphos TEP4
2. Lanphos TEP4K
3. Lanphos PE310

Phosphate Ester in Metal Working Fluid:

Phosphate esters find application in the formulation of metal working as versatile multipurpose additives. The capability to modify their characteristics by selecting the optimum hydrophobe, ethylene oxide content and monoester to diester ratio allow products with the optimum surface-active properties to be provided for a wide range of metalworking fluid applications.

The key characteristics are:

1. Emulsification
2. Lubrication / Extreme pressure additive
3. Corrosion inhibition
4. Low foaming
5. Detergency
6. Hydrotropes

These characteristics can be optimized for use in the formulation of a wide range of metalworking products, including:

1. Neat oils
2. Soluble oils
3. Semisynthetic MWF
4. Synthetic MWF
5. Metal cleaning formulation

Phosphate Ester in Polymerisation/Dispersion:

Phosphate Ester offers high stability towards temperature, electrolytes, and pH. They also help emulsions smooth working in hard water and ensure fine particles, high solids, and high molecular weight. It is compatible with most of the monomers and ensures durability to emulsions.

1. Products Used
2. Lanphos PS 10
3. Lanphos PET 11

Typical products used in the formulation of metalworking fluids include:

1. Lanphos PE74 ' Oil-soluble phosphate ester is a highly effective emulsifier that provides excellent lubrication in oil and water-based systems. Also, it imparts good anti-corrosion properties and low foaming characteristics to water-based lubricant systems. Lanphos PE74 can best be used in the formulation of soluble oils and semi-synthetic metalworking fluids but can also find uses in neat oils.

2. Lanphos TEP4 ' Water-soluble phosphate ester is a highly effective lubricant for water-based systems, imparting good anti-corrosion properties and low foaming characteristics to water-based lubricant systems. Lanphos TEP4 can be used in the formulation of synthetic metalworking fluids. Also, it provides hydrotrope properties and can be used in the formulation of highly built-metal cleaning products.

Phosphate esters are a standout among surfactants due to their valuable functional properties and remarkable versatility. As demand for them continues to grow, Ethox Chemicals is proud to offer extensive expertise in phosphate ester production to our customers.

Read on to learn more about these advantageous surfactants ' and how we use them to customize high-performance products for specific applications in a multitude of sectors.

WHAT ARE PHOSPHATE ESTERS?

Organic esters of phosphoric acid, phosphate esters are a versatile class of anionic surfactants. Superior wetting and dispersing agents for a variety of end uses, they improve the dispersion of pigments during processing while also enhancing surface wetting and reducing flash rusting. Because of their versatility, phosphate esters have applications in many industries. For example, they are used in the coatings industry to improve gloss, color acceptance, and water sensitivity in waterborne paint and coatings.

Prepared via a phosphation process in which either phosphoric anhydride (P2O5) or polyphosphoric acid (PPA) is reacted with the hydroxyl group (-OH) of a hydrophobe-containing material, phosphate esters are strong acids. While they are often used in the acid form, they can also be partially or fully neutralized with various bases'such as potassium hydroxide or amines'to form anionic phosphate ester salts, which are much more water soluble than the acid form. The degree of neutralization determines the water solubility and surface activity of the phosphate ester, thus they may be 'tuned' to optimize their performance in your application.

A Leader in the Production of Phosphate Esters

Ethox Chemicals has more than 50 years of experience producing phosphate esters from these four major chemical groups:

• Fatty alcohols
• Ethoxylated and/or propoxylated fatty alcohols
• Glycerides, such as castor oil
• Ethoxylated alkyl phenols

They have a broad range of applications, and are used as the following:

• Extreme pressure additives
• Anti-static agents
• Wetting and scouring agents
• Oil and water dispersible emulsifiers
• Lubricants
• Pigment dispersants

Contact Ethox For Your Phosphate Ester Needs

A leading provider of surface-modifying products, we serve customers in a wide breadth and depth of industries. Using our extensive knowledge and experience in custom synthesis and product development, we employ a wide range of chemistries including alkoxylation, esterification, phosphation, sulfation, and quaternization.

As specialists in the manufacturing of phosphate esters, we make more than 100 phosphate ester products using different combinations of hydrophobe-to-acid group content'each optimized for its own specific end use.

If you want to learn more, please visit our website Castor Oil Ethoxylates.