Sodium lauroyl methyl isethionate | Solubility of Things

Identification

Molecular formula

C₂₃H₄₃NNaO₅S

CAS number

928663-45-0

IUPAC name

sodium;2-[methyl(octadec-9-enoyl)amino]ethanesulfonate

State

At room temperature, sodium lauroyl methyl isethionate is typically a solid. Its solid state makes it easy to include in powdered formulations or solid cleansing bars. It remains stable under normal temperature and pressure conditions and does not evaporate.

Melting point (Celsius)

142.00

Melting point (Kelvin)

415.15

Boiling point (Celsius)

230.00

Boiling point (Kelvin)

503.15

General information

Molecular weight

419.64g/mol

Molar mass

418.6410g/mol

Density

1.0204g/cm³

Appearence

Sodium lauroyl methyl isethionate is commonly found as a white solid, usually in the form of a fine powder or granules. It may also appear as flakes. The compound is noted for its ability to produce a creamy lather and is widely used in personal care products for its mild cleaning properties. It is soluble in water, forming a clear or slightly cloudy solution.

Comment on solubility

Solubility of Sodium 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate

Sodium 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate is an intriguing compound with notable solubility characteristics that make it quite significant in various applications.

This compound is typically known to be soluble in water, primarily due to the presence of the sulfonate group, which is highly polar and can interact favorably with the aqueous environment. Here are some key points about its solubility:

Hydrophilic Nature: The sulfonate group contributes to its hydrophilic properties, allowing it to form hydrogen bonds with water molecules.
Solvent Compatibility: It also exhibits some solubility in organic solvents, which can broaden its utility in various formulations.
Emulsifying Agent: As an emulsifier, it can help stabilize mixtures that are typically immiscible, aiding in the dispersion of oils in water.

In conclusion, the solubility of sodium 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate is influenced by its molecular structure, with a strong inclination towards aqueous environments. This characteristic enables its use in numerous chemical and biological applications, demonstrating the *importance of solubility* in the functionality of compounds.

Interesting facts

Sodium; 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate: An Insightful Exploration

This compound, known as sodium 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate, is a fascinating example of a surfactant that showcases a blend of both hydrophilic and hydrophobic characteristics. Surfactants, or surface-active agents, are fundamental in various applications due to their ability to reduce surface tension between different phases, making them essential in fields such as cleaning, pharmaceuticals, and cosmetics.

Key Characteristics:

Biosurfactant Potential: This compound is of great interest for its potential as a biosurfactant, which means it can be derived from renewable sources and is often more environmentally friendly.
Versatile Applications: It is used in a variety of formulations, including emulsifiers in cultured products and stabilizers in personal care formulations.
Amphiphilic Nature: The combination of a hydrophobic fatty acid tail and a hydrophilic sulfonate group presents unique properties that are vital in creating stable emulsions.

Furthermore, research has shown that compounds like this can play a critical role in drug delivery systems, improving the bioavailability of therapeutic agents. As a scientist or chemistry student, it is intriguing to observe how modifications in the hydrophobic or hydrophilic parts of the molecule can significantly influence the overall properties and functionalities.

Quote to Reflect On:

"The more we know about surfactants, the more we can manipulate their properties to meet the needs of our increasingly complex world." – Anonymous

In summary, sodium 2-[methyl(octadec-9-enoyl)amino]ethanesulfonate is not merely a chemical entity; it is a gateway to understanding the interplay of structure and functionality in modern science. Its biosurfactant potential, capacity for diverse applications, and unique properties make it a compound worthy of exploration and research.