EINECS number 246-690-9

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CAS number 25167-70-8

High-Purity Di-isobutylene DIB-NC for Advanced Chemical Applications

Di-isobutylene DIB-NC (Normal Cut) is a high-purity C8 olefin composed mainly of 2,4,4-trimethylpent-1-ene and 2,4,4-trimethylpent-2-ene. It is produced via the dimerization of isobutylene and selectively fractionated to ensure a consistent isomer profile. DIB-NC is ideal for high-performance applications requiring chemical stability, reactivity, and purity.

At Equilex Chemicals, we supply Di-isobutylene DIB-NC to customers in the lubricant, polymer, and specialty chemicals sectors. Our product is available in bulk and complies with international chemical regulations including REACH.

High-Purity Di-isobutylene DIB-NC for Advanced Chemical Applications

Di-isobutylene DIB-NC (Normal Cut) is a high-purity C8 olefin composed mainly of 2,4,4-trimethylpent-1-ene and 2,4,4-trimethylpent-2-ene. It is produced via the dimerization of isobutylene and selectively fractionated to ensure a consistent isomer profile. This product is ideal for high-performance applications requiring chemical stability, reactivity, and purity.

At Equilex Chemicals, we supply this high-grade C8 olefin to customers in the lubricant, polymer, and specialty chemicals sectors. Our material is available in bulk and complies with international chemical regulations including REACH.

Key Features

• High-purity narrow cut of branched C8 olefins
• Consistent isomer composition
• Low aromatics and sulfur content
• High chemical stability and reactivity
• Ideal for demanding synthesis processes

Applications

This olefin blend is used in high-value formulations across several industries, such as:

• Lubricant additives and synthetic base oils
• Alkylation agents for organic synthesis
• Polymer precursors and resin production
• Fine chemicals and specialty intermediates

Its high purity and narrow cut make it the preferred option in controlled processes where reliability and performance are essential. Equilex Chemicals provides tailored packaging and global supply to meet technical and logistical needs.

Why Choose Equilex Chemicals

Equilex Chemicals ensures a stable supply of this high-purity C8 olefin with full quality traceability. We support clients with technical data, compliance documentation, and efficient international distribution.

Learn More

For additional molecular data, visit the
PubChem page on 2,4,4-Trimethyl-1-pentene, a trusted database managed by the U.S. National Library of Medicine.

See also: Di-isobutylene DIB-WC – Wide-Cut C8 Olefin

EINECS number 246-690-9

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CAS number 25167-70-8

Di-Isobutylene for Industrial Applications

Di-isobutylene is an essential chemical used in various industrial applications such as coatings, fuel additives, adhesives, and plasticizers. It is available as a wide-cut C8 olefin (DIB-WC), produced by the dimerization of isobutylene. This grade offers cost efficiency and chemical versatility for large-scale technical formulations.

At Equilex Chemicals, we supply DIB-WC in bulk volumes to clients in the coatings, petrochemical, and specialty manufacturing industries. Its favorable boiling range, solvency power, and compatibility with other hydrocarbons make it a smart choice for formulators who value flexibility and cost control.

Features of Di-Isobutylene (DIB-WC)

• Blend of branched C8 olefins
• Wide boiling range for versatile processing
• Excellent solvency characteristics
• REACH compliant
• Available in drums, IBCs, or tankers

Main Applications

This wide-cut olefin is commonly used as a solvent in paint and ink formulations, as a fuel blending agent, and as a building block for adhesives and resins. It is also used in the production of intermediates for industrial chemicals where performance and affordability are both required.

Its compatibility with many organic systems makes it a valuable component in manufacturing environments. Whether you’re producing fuel additives or specialty polymers, DIB-WC supports efficient and stable formulation processes.

Why Choose Equilex Chemicals?

Equilex Chemicals ensures reliable and compliant bulk delivery of high-quality DIB-WC. With full REACH documentation and global logistics, we help clients meet production needs and regulatory standards. Our team provides support for custom packaging, technical specifications, and delivery schedules tailored to your operations.

Learn More

For detailed chemical data, refer to the PubChem entry for 2,4,4-Trimethyl-1-pentene.

See also: Di-Isobutylene DIB-NC – High-Purity Grade

EINECS number 216-374-5

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CAS number 1569-02-4

Ethoxy Propanol – High-Purity Industrial Solvent

Ethoxy Propanol (also known as 1-ethoxy-2-propanol or propylene glycol ether ethyl) is a versatile organic solvent widely used in industrial applications. Thanks to its excellent miscibility with water and many organic solvents, it is ideal for use in paints, coatings, inks, cleaners, and chemical formulations.

Main Applications

• Solvent for paints and coatings
• Printing inks and writing fluids
• Industrial cleaners and degreasers
• Cosmetic and pharmaceutical intermediate
• Chemical formulations

Key Benefits

• High solvency power
• Moderate, controlled evaporation rate
• Compatible with a wide range of resins
• Improves film formation and flow
• Reduces surface tension in formulations

Available Packaging

• 200-liter drums
• 1000-liter IBC containers
• Bulk on request

Logistics & Availability

Product available from stock – fast delivery across Europe and internationally.
Technical support available on request.

Ethoxy Propanol, 1-ethoxy-2-propanol, glycol ether solvent, propylene glycol ether ethyl, paint solvent, industrial solvent, Ethoxy Propanol supplier, organic solvent, chemical formulation solvent

For official regulatory information, you can consult the ECHA

CAS number 30025-38-8

Ethyl DIPROXITOL is a colourless, hygroscopic, high boiling liquid with a mild odour. It is miscible in any proportion with water and many organic solvents and has good solvent power for nitrocellulose and dyestuffs.
It is used as an intermediate and in formulations in industrial, professional or consumer applications, mainly in surface coatings and printing inks and paints, cleaners, agrochemical or de-icing/anti-icing formulations.

EINECS number 265-151-9

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CAS number 64742-49-0

Hexane Extraction Grade – High-Purity Solvent for Industrial Use

Hexane extraction grade is a high-purity solvent specifically refined for industrial oil extraction, food processing, and pharmaceutical applications. Its low impurity profile makes it ideal for safe and efficient extraction from plant-based materials.

Key Benefits of Hexane Extraction Grade

• High purity with minimal aromatics and sulfur

• Complies with food-grade and pharmaceutical-grade standards

• Fast-evaporating, colorless solvent

• Reliable and consistent quality

Applications in Food, Pharma and Cosmetics

This solvent is widely used in:

• Vegetable oil extraction (soybean, sunflower, rapeseed)

• Botanical and natural ingredient extraction for pharmaceuticals

• Formulation of cosmetic products using plant-based compounds

Hexane Extraction Grade and Regulatory Compliance

Our hexane extraction grade meets international quality and safety standards, including USP, FCC, and EU regulations. It is manufactured under strict control to ensure that it is safe for use in food contact and pharmaceutical applications. Regular quality checks and batch traceability provide our clients with full transparency and peace of mind. Whether you are in the food industry or developing botanical extracts for cosmetics or medicine, this solvent is a reliable and certified solution.

Why Choose Equilex as Your Hexane Supplier in Europe

At Equilex, we supply high-purity extraction-grade hexane that meets international quality standards such as USP and FCC. We ensure full traceability, dependable delivery, and custom packaging to match your industrial requirements.

You can learn more about our full range of industrial solvents by visiting: www.equilex.com/industrial-solvents

EINECS number 265-151-9

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CAS number 64742-49-0

Hexane polymerization refers to the process of converting hexane, a hydrocarbon with the chemical formula C6H14, into polymers, which are large molecules made up of repeating subunits.

Hexane polymerization can be achieved through various methods, including:

Ziegler-Natta Polymerization: This method involves the use of a catalyst, such as titanium chloride, to initiate the polymerization reaction. The catalyst is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of long polymer chains.

Metallocene Polymerization: This method involves the use of a metallocene catalyst, which is a type of transition metal compound, to initiate the polymerization reaction. The catalyst is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of highly uniform polymer chains.

Free Radical Polymerization: This method involves the use of a free radical initiator, such as benzoyl peroxide, to initiate the polymerization reaction. The initiator is typically dissolved in a solvent, such as hexane, and then added to the monomer, which is also dissolved in the solvent. The reaction is carried out at a high temperature and pressure, resulting in the formation of randomly branched polymer chains.

The resulting hexane polymers can be used in various applications, such as in the production of plastics, synthetic rubbers, and adhesives. Hexane polymerization is a complex process that requires careful control of various reaction parameters, such as temperature, pressure, and catalyst concentration, to achieve the desired polymer properties.

EINECS number 265-151-9

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CAS number 64742-49-0

Isohexane LNH is a type of hydrocarbon solvent that is primarily composed of isohexane. It is a colorless, clear liquid with a low odor and a low toxicity, making it a relatively safe solvent to work with in various industrial applications.

Isohexane LNH is commonly used as a solvent in the production of various chemical products, including adhesives, coatings, and cleaning products. It is also used in the extraction of natural products, such as vegetable oils and fragrances.

One of the benefits of Isohexane LNH is its low odor and low toxicity, which makes it a more pleasant and safer solvent to work with compared to other solvents. Additionally, it has a high evaporation rate, which can make it a desirable solvent for applications that require quick drying times.

Isohexane LNH is also known for its high solvency power, which means it is effective at dissolving a wide range of substances. This makes it a versatile and useful solvent that has a wide range of industrial applications.

Overall, Isohexane LNH is a reliable and effective solvent that has a variety of industrial applications. Its favorable safety and environmental characteristics, along with its high solvency power, make it a desirable solvent choice for many industries.

EINECS number 200-661-7

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CAS number 67-63-0

Isopropyl alcohol, also known as isopropanol or IPA, is a colorless, flammable liquid with a strong odor. It is a common solvent with a wide range of applications in industry, healthcare, and household settings.

One of the primary uses of isopropyl alcohol is as a cleaning agent and disinfectant. It is often used to clean electronic devices, medical equipment, and other surfaces that require sterilization. It is also used in the production of hand sanitizers, surface disinfectants, and other cleaning products.

Isopropyl alcohol is also commonly used as a solvent in the production of pharmaceuticals, cosmetics, and other consumer products. It can dissolve a wide range of substances, making it a versatile ingredient in many formulations.

In addition, isopropyl alcohol is often used as a fuel additive, as it can help improve the performance of gasoline engines by reducing the formation of deposits and improving fuel efficiency.

However, isopropyl alcohol can be hazardous if not handled properly. It is flammable and should be stored and handled in a well-ventilated area away from sources of ignition. Direct contact with skin or inhalation of vapor can also cause irritation, so appropriate precautions should be taken when using this substance.

Overall, isopropyl alcohol is a versatile and widely used solvent with a range of applications in industry, healthcare, and household settings. Its ability to dissolve a wide range of substances and its effectiveness as a cleaning agent and disinfectant make it an essential component of many products and formulations.

Linear alpha olefins, often abbreviated as LAOs, are a type of chemical compound belonging to the family of alpha-olefins. Alpha-olefins are a class of organic compounds with a double bond (alkene) at the alpha position, which means the double bond is located at the beginning of the carbon chain.

Linear alpha olefins are characterized by having a linear, straight-chain structure. They have the general chemical formula CnH2n, where “n” represents the number of carbon atoms in the chain. They are typically produced through the oligomerization of ethylene, a process that links together multiple ethylene molecules to form longer carbon chains.

Linear alpha olefins are versatile chemicals with a wide range of applications, including:

Linear alpha olefins, often abbreviated as LAOs, are a type of chemical compound belonging to the family of alpha-olefins. Alpha-olefins are a class of organic compounds with a double bond (alkene) at the alpha position, which means the double bond is located at the beginning of the carbon chain.

Linear alpha olefins are characterized by having a linear, straight-chain structure. They have the general chemical formula CnH2n, where “n” represents the number of carbon atoms in the chain. They are typically produced through the oligomerization of ethylene, a process that links together multiple ethylene molecules to form longer carbon chains.

Linear alpha olefins are versatile chemicals with a wide range of applications, including:

1. Lubricant and lubricant additive manufacturing: LAOs are used in the production of synthetic lubricants and lubricant additives, providing improved performance characteristics over conventional mineral oil-based lubricants.

2. Polymer manufacturing: Linear alpha-olefins serve as feedstocks in the production of various polymers, including high-density polyethylene (HDPE), linear low-density polyethylene (LLDPE), and low-density polyethylene (LDPE). These polymers are used in products such as plastic films, bottles, and pipes.

3. Surfactants and detergents: LAOs are used to produce surfactants and detergent intermediates, contributing to the formulation of cleaning and personal care products.

4. Specialty chemicals: They are employed in the manufacture of various specialty chemicals, including antioxidants, synthetic alcohols, and flavors.

5. Agricultural chemicals: LAOs may be used in the production of agricultural chemicals such as pesticides and herbicides.

Product range : 

C 6 : Hexene 

C 8: Octene 

C 10: Decene

C 12: Dodecene 

C 12-14: Blend 

C 14: Tetradecene

C 14-16: Blend

C 16: Hexadecene 

C 16-18: Blend 

C 18: Octadecene 

C20-24: CAS number 93924-10-8

C 24-28: Blend 

C 30+

EINECS number 212-819-2

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CAS number 872-05-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.  Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C10 is C10H20 with the chemical name 1-Decene.

LAO C10 1-Decene is used as a monomer in copolymers and is an intermediate in the production of epoxides, aqueous detergents, linear alkyl benzenes, amines, oxo alcohols, synthetic lubricants, synthetic fatty acids, and alkylated aromatics.

Download our technical data sheet

EINECS number 203-968-4

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CAS number 112-41-4

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x. Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C10 is C12H24 with the chemical name 1-Dodecene. LAO C12 1-Dodecene is used as intermediates in a variety of market applications including surfactants, detergents, lubricant additives and paper sizing.

Download our technical data sheet

EINECS number 214-306-9

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CAS number 1120-36-1

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAO’s have their double bond position at the primary carbon or alpha position. LAO C14 is C14H28 with the chemical name 1-Tetradecene.

LAO C14 is used in synthetic lubricants, surfactants, detergents, viscosity adjustors, personal care products, intermediates and paper sizing.

Download our technical data sheet

EINECS number C14: 214-306-9 C16: 211-105-8

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CAS number C14: 1120-36-1 C16: 629-73-2

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C14-16 is C14H28 with the chemical name 1-Tetradecene and C16H32 with the chemical name 1-Hexadecene
LAO C14-16 Blend is used in common blends for different applications.

EINECS number 211-105-8

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CAS number 629-73-2

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C16 is C16H32 with the chemical name 1-Hexadecene.
LAO C16 1- Hexadecene is used in Alkenyl Succinic, Anhydride (ASA), Functional Drilling Fluids, Foodadditives, Leather Tanning Agents, Alpha Sulphonates.

EINECS number C16: 211-105-8 C18:204-012-9

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CAS number C16: 629-73-2 C18: 112-88-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C16-18 is C16H32 with the chemical name 1-Hexadecene and C18H36 with the chemical name 1-Octodecene
LAO C16-18 Blend is used as the hydrophobes in oil-soluble surfactants and as lubricating fluids

EINECS number 204-012-9

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CAS number 112-88-9

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C18 is C18H36 with the chemical name 1-Octadecene
LAO C18 1-Octadecene is used in Alkenyl Succinic Anhydride ( ASA) , Functional Drilling Fluids, Foodadditives, Leather Tanning Agents, Alpha Sulphonates.

EINECS number 300-202-1

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CAS number 93924-10-8

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position.
LAO C20-24 alpha olefin, is recommended for applications such as maleic anhydride copolymers, lube-oil additives, di-/polyhalides, and functional drilling fluids just to name a few.

EINECS number 300-203-7

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CAS number 93924-11-9

LAO C24-28 stands for “Linear Alpha Olefins with a carbon chain length of 24 to 28”. It is a type of chemical compound that belongs to the family of linear alpha olefins, which are unsaturated hydrocarbons with a terminal double bond.

LAO C24-28 is mainly used as a co-monomer in the production of polyethylene (PE) and polypropylene (PP) plastics. It acts as a comonomer to modify the properties of the final product, such as improving its tensile strength, flexibility, and impact resistance. LAO C24-28 is also used as a raw material in the production of lubricants, surfactants, and other specialty chemicals.

Linear alpha olefins, including LAO C24-28, are produced by the oligomerization of ethylene, which is a basic building block of the petrochemical industry. LAO C24-28 is considered a high-value product due to its relatively long carbon chain length and is used in a range of industrial applications where high performance is required.

It is important to handle LAO C24-28 with care, as it is a flammable liquid that can cause skin and eye irritation upon contact. Protective equipment and proper handling procedures should be used when working with this compound.

EINECS number 200-815-3

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CAS number 74-85-1

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x. Unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position.
LAO C30+ alpha Olefin (LAO) is olefins recommended for PVC lubes,fertilizer coating,oriented stand board.

EINECS number 209-753-1

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CAS number 592-41-6

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x.  Unlike other linear olefins with the same formula the LAO’s have their double bond position at the primary carbon or alpha position. LAO C6 is C6H12 with the chemical name 1-Hexene.

LAO C6 1-hexene is used as a co-monomer in co-polymerization reactions with, for example, ethylene. Another application is the production of hexanaldehyde by oxidation. A third possibility is to extend the carbon chain with carbon monoxide by carrying out a hydroformylation reaction to produce heptanoic acid.

Download our technical data sheet

EINECS number 203-893-7

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CAS number 111-66-0

Linear Alpha Olefins (LAO) are olefins (alkenes) with the formula CxH2x, unlike other linear olefins with the same formula the LAOs have their double bond position at the primary carbon or alpha position. LAO C8 is C8H16 with the chemical name 1-Octene.

LAO C8 1-octene is used as a monomer in copolymers and is an intermediate in the production of epoxides, amines, oxo alcohols, synthetic lubricants, synthetic fatty acids, and alkylated aromatics.

Download our technical data sheet

EINECS number 252-104-2

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CAS number 34590-94-8

Methyl DIPROXITOL is a colourless, hygroscopic,high boiling liquid with a mild odour. It is miscible in any proportion with water and many organic solvents and has a good solvent power for nitrocellulose and dyestuffs.
This substance is used in the following products: coating products, anti-freeze products and lubricants and greases.

EINECS number 201-159-0

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CAS number 78-93-3

Methyl ethyl ketone (MEK) is a clear, colorless, and flammable liquid with a slightly sweet odor. It is a common organic solvent with a wide range of industrial applications.

EINECS number 203-550-1

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CAS number 108-10-1

Methyl isobutyl ketone (MIBK) is a colorless organic compound with a pleasant odor. It is a solvent that is widely used in various industrial applications due to its excellent solvency properties and moderate evaporation rate.

EINECS number 203-539-1

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CAS number 107-98-2

Methyl Proxytol is an organic solvent with a wide variety of industrial and commercial uses. Similar to other glycol ethers, it is used as a carrier/solvent in printing/writing inks and paints/coatings. It also finds use as an industrial and commercial paint stripper. It is used as an antifreeze in diesel engines.

EINECS number 203-603-9

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CAS number 108-65-6

Methyl PROXITOL acetate is a colourless, neutral propylene oxide-based glycol ether acetate with a mild odour and a volatility, viscosity and solvent power similar to those of ethylene glycol-based glycol ether acetates.

EINECS number 200-338-0

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CAS number 57-55-6

Monopropylene Glycol USP

Monopropylene Glycol (MPG) USP is a synthetic organic compound with the chemical formula C₃H₈O₂, also known as 1,2-propanediol. It is a clear, colorless, and odorless liquid with a slightly sweet taste and high purity. Our MPG USP is vegetable-based, making it suitable for a wide range of uses in food, pharmaceutical, and cosmetic industries.

The “USP” designation confirms that the product complies with the standards of the United States Pharmacopeia, ensuring pharmaceutical-grade purity and consistent quality. This makes Monopropylene Glycol USP ideal for sensitive applications that demand safety and reliability.

Key Applications of Monopropylene Glycol USP

Antifreeze and Coolant Formulations

MPG USP is frequently used in antifreeze and coolant solutions for both automotive and industrial systems. It not only lowers the freezing point of water but also prevents corrosion within mechanical components, ensuring long-term system efficiency.

Industrial Solvent

Due to its excellent solubility and chemical stability, Monopropylene Glycol USP is an effective solvent in the production of printing inks, coatings, resins, and various chemical blends.

Food and Beverage Industry

As a food-grade additive, MPG USP serves as a humectant, carrier, and stabilizer. It is commonly found in flavorings, food colorants, and extracts, ensuring better shelf-life and improved product consistency.

Personal Care and Cosmetics

In personal care products such as creams, lotions, and shampoos, MPG USP enhances moisture retention, texture, and formulation stability, offering a smoother, more effective user experience.

Pharmaceutical Uses

MPG plays a crucial role as a carrier and solvent for active pharmaceutical ingredients (APIs). It aids in drug solubility, bioavailability, and delivery, supporting effective medical treatment.

Safety and Handling

While Monopropylene Glycol USP is widely regarded as safe when used appropriately, it is important to follow all recommended handling procedures. Avoid prolonged exposure or ingestion in large amounts. Store in a cool, dry environment and consult the safety data sheet (SDS) for full precautions.

MPG is available in USP/Pharma and Technical grades, depending on application needs.

 If you’re looking for a synthetic grade product, please visit our dedicated Monopropylene Glycol page.

Download our technical data sheet

EINECS number 232-479-9

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CAS number 8050-26-8

Equilex Chemicals is an importer into the European Union of pentaerythritol esters of rosin. These tackifiers are important components in the formulation of hot melt adhesives, road marking paints and rubber compounds. Our products are produced using mixed tall oil rosin and gum rosin streams to ensure a more consistent end product. Our standard products range from a softening point of 85 °C up to 106 °C. Other grades are available on request.

EINECS number 297-797-2

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CAS number 93762-80-2

Pentamer is a branched olefin produced by the polymerization of propylene. Pentamer is also referred to as propylene pentamer. It is preferred name for branched C15 olefin.

Pentamer is used for solvent applications and or carrier fluids (e.g. drilling fluids) and as a supplement or replacement for tetramer. Other applications are the production of alkylphenols, alkenylsucinnic anhydride, mercaptans, alcohols and for alkylation of benzene. Pentamer can be used as a synthetic base oil, a refrigeration fluid and as an intermediate for further reaction (e.g. sulphonation).

Download our technical data sheet

EINECS number 298-697-1

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CAS number 93821-12-6

Propylene tetramer, commonly known as tetrapropylene, is an important hydrocarbon compound in the chemical industry. With a molecular formula of C12H24, it has a unique structure and a wide range of applications.

Tetrapropylene is a hydrocarbon made up of 12 carbon atoms and 24 hydrogen atoms. Its unique structure makes it a valuable building block for various chemical processes.

Applications:

Lubricant additives: Propylene tetramer is used as a lubricant additive to enhance the performance of lubricating oils by improving viscosity, stability and overall lubricity.

Chemical synthesis: It serves as a key intermediate in the synthesis of various chemicals, contributing to the production of specialised polymers, plastics and other chemical compounds.

Polymer production: The tetrapropylene molecule plays a role in the creation of specialty polymers used in a wide range of industries, including automotive and manufacturing.

Surfactants: When modified and sulphonated, propylene tetramer is used in the production of surfactants, which are integral to the formulation of soaps, detergents and cleaning products.

Download our technical data sheet

EINECS number 307-301-9

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CAS number 97593-01-6

Propylene Trimer (Nonene) – Alkyl Intermediate for Antioxidants and Lubricant Additives

Propylene Trimer, also known as Nonene, is a nine-carbon branched-chain hydrocarbon (C₉H₁₈) widely used as an alkyl intermediate in various chemical and petrochemical industries. It plays a critical role in the manufacture of alkylphenols, which are essential in the production of antioxidants, fuel additives, and lubricant modifiers.

At Equilex, we offer high-purity Propylene Trimer (Nonene) suitable for demanding industrial applications. It is commonly used in processes requiring stable hydrocarbon feedstocks with consistent performance across diverse conditions. Our material meets high quality standards and is compatible with most downstream chemical processes.

Key Applications

Propylene Trimer (Nonene) is widely used across various industries as a versatile alkyl intermediate and chemical building block. Its primary industrial applications include:

• Production of alkylphenols for industrial antioxidants in plastics, rubber, and synthetic resins
• Formulation of fuel and lubricant additives, including detergents and viscosity modifiers
• Manufacture of non-ionic surfactants such as nonylphenol ethoxylates for detergents and cleaning agents
• Production of alkylphenolic and epoxy-modified resins used in coatings and adhesives
• Use as an alkylating agent in specialty and fine chemicals synthesis
• Synthesis of specific isomers like 1-Nonene for advanced surfactant applications
• Intermediate for polymer and copolymer modification to improve thermal and mechanical properties
• Carrier or co-formulant in agrochemical products such as herbicides and pesticides
• Emerging use in nanomaterials, biodegradable materials, and catalyst systems

These applications highlight the role of Propylene Trimer as a highly functional molecule adaptable to numerous chemical transformations.

Technical Specifications

• Chemical Name: Propylene Trimer (Nonene)
• Chemical Formula: C₉H₁₈
• Boiling Point: ~150–160 °C
• Density: ~0.74 g/cm³
• Appearance: Clear, colorless liquid
• Packaging: Bulk, drums, or IBCs upon request

Production Methods

Catalytic Oligomerization: Propylene gas undergoes a controlled reaction, often using solid phosphoric acid (SPA) or zeolite-based catalysts, to produce a mixture of branched and linear C9 olefins.

Selective Isomer Production: Advanced processes can increase the yield of 1-Nonene, a preferred isomer for detergent and surfactant applications.

Industrial Markets and Use Cases

Propylene Trimer is essential in a wide range of industrial applications. It is frequently used by manufacturers in the lubricant, plastic, and specialty chemical industries who require precise control over additive composition and performance. Its compatibility with other C9 derivatives makes it a versatile building block for advanced formulations.

We also supply related intermediates such as Tetramer, which complements Propylene Trimer in certain polymerization and additive applications.

For safety data, handling guidelines, and full technical documentation, you may consult the Nonene profile on PubChem.

Contact us today to request a quote or a complete technical data sheet (TDS).

Download our technical data sheet