N-(amino(thioxomethylidene)amino)acetamide

Identification

Molecular formula

C₃H₆N₂OS

CAS number

59277-89-3

IUPAC name

N-[amino(sulfanyl)methylene]acetamide

State

At room temperature, N-(amino(thioxomethylidene)amino)acetamide is a solid. It is stable under normal conditions but should be kept dry and stored properly to prevent degradation.

Melting point (Celsius)

120.00

Melting point (Kelvin)

393.00

Boiling point (Celsius)

270.00

Boiling point (Kelvin)

543.00

General information

Molecular weight

119.16g/mol

Molar mass

119.1590g/mol

Density

1.3500g/cm³

Appearence

N-(amino(thioxomethylidene)amino)acetamide appears as a colorless to pale yellow crystalline solid. The compound is typically encountered as a powder or crystalline solid depending upon the synthesis and purification process. It is sensitive to moisture and should be stored under dry conditions.

Comment on solubility

Solubility of N-[amino(sulfanyl)methylene]acetamide

N-[amino(sulfanyl)methylene]acetamide, a compound with intriguing structural features, often displays unique solubility characteristics. Overall, the solubility of this compound can be influenced by several factors:

Polarity: Due to the presence of amino and sulfanyl groups, this compound tends to have moderate polarity, affecting its interaction with solvents.
Solvent Choice: N-[amino(sulfanyl)methylene]acetamide is generally more soluble in polar solvents, such as water or ethanol. Conversely, non-polar solvents may not dissolve it effectively.
Temperature Gradient: Increasing the temperature often enhances solubility, making it easier for this compound to dissolve in a solvent.
Hydrogen Bonding: The potential for hydrogen bonding due to functional groups can significantly increase solubility in aqueous environments.

Researchers note that "The solubility of a compound is crucial to its applications in both biological and industrial contexts." Thus, understanding the solubility behavior of N-[amino(sulfanyl)methylene]acetamide is vital for its effective utilization in various fields. To summarize, this compound's solubility is contingent on polarity, solvent choice, temperature, and hydrogen bonding capabilities, making it a subject of interest for chemists working with similar functional groups.

Interesting facts

Interesting Facts about N-[amino(sulfanyl)methylene]acetamide

N-[amino(sulfanyl)methylene]acetamide is a fascinating compound with unique properties and potential applications in various fields. Here are some engaging insights into this molecule:

Structure and Function: The compound features a sulfanyl group, which introduces significant reactivity due to the sulfur atom's ability to participate in various chemical reactions. This functional group can make N-[amino(sulfanyl)methylene]acetamide a versatile building block in organic synthesis.
Biological Significance: Compounds like N-[amino(sulfanyl)methylene]acetamide can play essential roles in biological systems. They may act as intermediates in metabolic pathways or exhibit interesting pharmacological properties, potentially leading to new therapeutic agents.
Research Interest: Chemists and researchers are increasingly studying thiourea derivatives, including N-[amino(sulfanyl)methylene]acetamide, for their ability to form complexes with metals. Such complexes could provide insights into coordination chemistry and materials science.
Potential Applications: The properties of N-[amino(sulfanyl)methylene]acetamide open the door for various applications ranging from pharmaceuticals to agrochemicals. The ability of sulfur-containing compounds to influence biological activity makes them candidates for drug development.
Environmental Impact: Compounds of this type also warrant investigation regarding their environmental effects. Understanding their stability and degradation pathways is crucial for evaluating their safety and sustainability in ecological systems.

In the words of a chemist, "Every compound holds stories waiting to be discovered, and N-[amino(sulfanyl)methylene]acetamide is no exception." This compound illustrates the intricate dance of atoms and bonds that weave together the fabric of chemistry, contributing to our growing knowledge of chemical compounds and their myriad interactions.