Sodium iodomethanesulfonate | Solubility of Things

Identification

Molecular formula

C₁H₂INaO₃S

CAS number

57587-36-7

IUPAC name

sodium;iodomethanesulfonate

State

At room temperature, sodium iodomethanesulfonate is in a solid-state. It is crystalline in nature, often appearing as a powder or granules.

Melting point (Celsius)

320.00

Melting point (Kelvin)

593.00

Boiling point (Celsius)

718.00

Boiling point (Kelvin)

991.00

General information

Molecular weight

251.94g/mol

Molar mass

251.9440g/mol

Density

2.1000g/cm³

Appearence

Sodium iodomethanesulfonate is typically a crystalline solid. It is often white or off-white in color.

Comment on solubility

Solubility of Sodium Iodomethanesulfonate

Sodium iodomethanesulfonate, with the chemical formula NaC₁H₄IO₃S, is an interesting compound in terms of solubility due to its ionic nature. Being a sodium salt, it generally exhibits good solubility characteristics in various solvents.

Key Points on Solubility:

Water Solubility: Sodium iodomethanesulfonate is typically soluble in water, as most sodium salts are. The ionic interactions with water molecules facilitate the dissolution process.
Solvent Compatibility: In addition to water, this compound may also dissolve in polar organic solvents, although the extent of solubility can vary.
Factors Influencing Solubility: The solubility can be affected by temperature and the presence of other ions in solution. Increased temperature often enhances solubility.
Seasonal Effects: Given its solubility in water, it is important to consider how environmental factors such as humidity could impact its behavior in formulations.

In summary, the solubility of sodium iodomethanesulfonate is a noteworthy characteristic that facilitates its use in various chemical applications. As always, understanding how solubility varies with different conditions can greatly impact its practical utilization.

Interesting facts

Interesting Facts about Sodium Iodomethanesulfonate

Sodium iodomethanesulfonate, often abbreviated as SIMS, is a fascinating chemical compound with a range of significant applications in both organic chemistry and medicinal chemistry. Here are some noteworthy aspects of this compound:

Reactivity: Sodium iodomethanesulfonate is known to be a versatile reagent, capable of participating in various chemical reactions, including nucleophilic substitutions. This property makes it valuable for synthetic chemists working on drug development and other organic transformations.
Biological Applications: Due to its iodomethyl group, sodium iodomethanesulfonate plays a crucial role in the synthesis of biologically active molecules. It can act as an electrophile, facilitating the introduction of iodomethyl groups into target compounds which are often crucial for enhancing biological activity.
Ease of Use: The simplicity of using sodium iodomethanesulfonate in reactions highlights its appeal among chemists. It is generally easy to handle and can be stored under standard laboratory conditions, making it a practical choice for routine use.
Synthesis: The synthesis of sodium iodomethanesulfonate involves the reaction of methanesulfonyl chloride with sodium iodide. This straightforward synthetic route contributes to its popularity in research settings.
Environmental Impact: While experimentation with such compounds is essential for advancing scientific knowledge, it is crucial to conduct research responsibly, considering the environmental impact of chemical waste management. Proper handling and disposal techniques are essential when working with compounds like sodium iodomethanesulfonate.

In the words of chemist Marie Curie, "Nothing in life is to be feared, it is only to be understood." This encapsulates the essence of working with compounds like sodium iodomethanesulfonate—through understanding its properties and potential applications, we can unlock new possibilities in chemistry and beyond.

Overall, sodium iodomethanesulfonate continues to be a valuable compound in the toolkit of many researchers and chemists, offering endless potential for innovative discoveries.