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| Synonyms | C12:0 ACID;CARBOXYLIC ACID C12;DODECOIC ACID;LAUROSTEARIC ACID;N-DODECANOIC ACID;1-undecanecarboxylicacid;Dodecanoic (Lauric) acid;dodecanoic acid (lauric acid) |
| Molecular Formula | C12H24O2 |
| Appearance | White crystalline powder |
| Molecular Weight | 200.32 |
| Melting Point | 44-46 °C(lit.) |
| Boiling Point | 225 °C100 mm Hg(lit.) |
| Density | 0.883 g/mL at 25 °C(lit.) |
| Vapor Pressure | 1 mm Hg ( 121 °C) |
| Refractive Index | 1.4304 |
| Flash Point | >230 °F |
| Acidity Coefficient (pKa) | 4.92(H2O,t =25.0) (Uncertain) |
| Solubility | Insoluble in water, soluble in chloroform, benzene, alcohol, ether, and petroleum ether |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg, or customized |
Lauric acid is widely found in natural plant oils such as coconut oil and palm kernel oil. It has good biodegradability and environmental friendliness, making it suitable for applications with high requirements for safety and sustainability.
Under normal storage and processing conditions, this compound exhibits good thermal and chemical stability, making it suitable for industrial production and long-term storage.
Lauric acid is an important basic raw material for the synthesis of various surfactants (such as sodium lauryl sulfate, lauryl sulfate, etc.), and it exhibits stable foaming, emulsifying, and cleaning properties.
It can be further processed through various reaction pathways such as esterification, saponification, and hydrogenation, making it suitable for different industrial systems and product specifications.
Lauric acid is commonly used in soaps, facial cleansers, shampoos, and bath products. It is an important fatty acid ingredient used to improve foaming properties, cleaning power, and product texture.
Provided it meets food-grade standards, this compound can be used as a food additive or an intermediate raw material in oil processing for the preparation of structured lipids and functional fats.
Lauric acid and its derivatives can be used as raw materials for the synthesis of pharmaceutical excipients or functional ingredients, and are applied in formulation research and related product development.
In the processing of coatings, rubber, lubricants, and plastic additives, it can be used to improve the processing properties of materials or as an intermediate in further synthesis.
It should be stored in a sealed container in a cool, dry, and well-ventilated environment to avoid melting or clumping due to high temperatures.
Since Lauric Acid is an organic acid, it should be kept away from prolonged contact with strong oxidizing agents or strong alkaline substances to prevent unnecessary chemical reactions.
When performing industrial operations, it is recommended to wear personal protective equipment such as protective gloves and goggles to avoid direct contact of dust or molten materials with the skin or eyes.
Waste generated in the laboratory or production process should be disposed of in accordance with local regulations regarding fatty acids or organic chemicals, and should not be discharged arbitrarily.
During transportation, it should be protected from moisture and sunlight, and the packaging should be kept intact. High temperature environments and violent vibrations should be avoided.
1. What is Lauric Acid?
It is a medium-chain saturated fatty acid with the chemical formula C12H24O2, CAS number 143-07-7, molecular weight of 200.32, and melting point of 44-46 °C (lit.). It is widely found in natural vegetable oils.
2. What are the main industrial uses of Lauric Acid?
It is primarily used in the production of personal protective equipment, soaps, surfactants, lubricants, and chemical intermediates.
3. Can this compound be used in food or daily chemical products?
Provided it complies with relevant regulations and quality standards, it can be used in food processing and daily chemical product formulations. Specific applications need to be determined based on product and regulatory requirements.
4. What is the difference between lauric acid and sodium laurate?
The former is a free fatty acid, while the latter is its sodium salt, usually produced by the reaction of lauric acid with sodium hydroxide. They differ in their application systems and solubility.
Wolfa professionally supplies Lauric Acid, supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
| Synonyms | C12:0 ACID;CARBOXYLIC ACID C12;DODECOIC ACID;LAUROSTEARIC ACID;N-DODECANOIC ACID;1-undecanecarboxylicacid;Dodecanoic (Lauric) acid;dodecanoic acid (lauric acid) |
| Molecular Formula | C12H24O2 |
| Appearance | White crystalline powder |
| Molecular Weight | 200.32 |
| Melting Point | 44-46 °C(lit.) |
| Boiling Point | 225 °C100 mm Hg(lit.) |
| Density | 0.883 g/mL at 25 °C(lit.) |
| Vapor Pressure | 1 mm Hg ( 121 °C) |
| Refractive Index | 1.4304 |
| Flash Point | >230 °F |
| Acidity Coefficient (pKa) | 4.92(H2O,t =25.0) (Uncertain) |
| Solubility | Insoluble in water, soluble in chloroform, benzene, alcohol, ether, and petroleum ether |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg, or customized |
Lauric acid is widely found in natural plant oils such as coconut oil and palm kernel oil. It has good biodegradability and environmental friendliness, making it suitable for applications with high requirements for safety and sustainability.
Under normal storage and processing conditions, this compound exhibits good thermal and chemical stability, making it suitable for industrial production and long-term storage.
Lauric acid is an important basic raw material for the synthesis of various surfactants (such as sodium lauryl sulfate, lauryl sulfate, etc.), and it exhibits stable foaming, emulsifying, and cleaning properties.
It can be further processed through various reaction pathways such as esterification, saponification, and hydrogenation, making it suitable for different industrial systems and product specifications.
Lauric acid is commonly used in soaps, facial cleansers, shampoos, and bath products. It is an important fatty acid ingredient used to improve foaming properties, cleaning power, and product texture.
Provided it meets food-grade standards, this compound can be used as a food additive or an intermediate raw material in oil processing for the preparation of structured lipids and functional fats.
Lauric acid and its derivatives can be used as raw materials for the synthesis of pharmaceutical excipients or functional ingredients, and are applied in formulation research and related product development.
In the processing of coatings, rubber, lubricants, and plastic additives, it can be used to improve the processing properties of materials or as an intermediate in further synthesis.
It should be stored in a sealed container in a cool, dry, and well-ventilated environment to avoid melting or clumping due to high temperatures.
Since Lauric Acid is an organic acid, it should be kept away from prolonged contact with strong oxidizing agents or strong alkaline substances to prevent unnecessary chemical reactions.
When performing industrial operations, it is recommended to wear personal protective equipment such as protective gloves and goggles to avoid direct contact of dust or molten materials with the skin or eyes.
Waste generated in the laboratory or production process should be disposed of in accordance with local regulations regarding fatty acids or organic chemicals, and should not be discharged arbitrarily.
During transportation, it should be protected from moisture and sunlight, and the packaging should be kept intact. High temperature environments and violent vibrations should be avoided.
1. What is Lauric Acid?
It is a medium-chain saturated fatty acid with the chemical formula C12H24O2, CAS number 143-07-7, molecular weight of 200.32, and melting point of 44-46 °C (lit.). It is widely found in natural vegetable oils.
2. What are the main industrial uses of Lauric Acid?
It is primarily used in the production of personal protective equipment, soaps, surfactants, lubricants, and chemical intermediates.
3. Can this compound be used in food or daily chemical products?
Provided it complies with relevant regulations and quality standards, it can be used in food processing and daily chemical product formulations. Specific applications need to be determined based on product and regulatory requirements.
4. What is the difference between lauric acid and sodium laurate?
The former is a free fatty acid, while the latter is its sodium salt, usually produced by the reaction of lauric acid with sodium hydroxide. They differ in their application systems and solubility.
Wolfa professionally supplies Lauric Acid, supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
