Ziram | Solubility of Things

Identification

Molecular formula

C₆H₁₂N₂S₄Zn

CAS number

137-30-4

IUPAC name

zinc;1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate

State

At room temperature, Ziram is in the form of a solid powder.

Melting point (Celsius)

246.00

Melting point (Kelvin)

519.15

Boiling point (Celsius)

0.00

Boiling point (Kelvin)

0.00

General information

Molecular weight

305.79g/mol

Molar mass

305.7870g/mol

Density

1.6600g/cm³

Appearence

Ziram is a white to yellow powder with a faint sulfurous odor.

Comment on solubility

Solubility of Zinc; 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate

The solubility of this compound can be nuanced and influenced by several factors. In general, metal thiolates, such as this compound, exhibit a range of solubility characteristics. Here are key points to consider:

Polar Solvents: Compounds containing sulfur often demonstrate solubility in polar solvents due to the presence of functional groups.
Solubility Limits: Though the exact solubility can vary, many thiolates have limited solubility in water but can dissolve better in organic solvents.
pH Dependence: The solubility may also be influenced by pH changes; an increase in acidity can enhance solubility for some thiol compounds.
Temperature Effects: Higher temperatures can improve solubility in certain solvents due to increased molecular motion.

As noted, it is essential to consider the specific formulation and purity when assessing solubility. "In many cases, the solubility data should be derived experimentally" to ensure accurate understanding, especially for unique and complex compounds like this one.

In summary, while zinc; 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate may exhibit moderate solubility in certain environments, its precise behavior will heavily depend on external conditions.

Interesting facts

Interesting Facts about Zinc; 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate

This intriguing compound, known as zinc; 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate, represents a blend of sulfur and nitrogen chemistry along with the essential zinc element. Here are some fascinating aspects worth noting:

Zinc's Role: Zinc is a crucial trace element for humans and other organisms. It's involved in numerous biological processes, including enzyme function, immune response, and protein synthesis.
Thioate Importance: The thioate group in this compound indicates that sulfur plays a significant role in its structure. Such compounds often exhibit unique reactivity and properties due to the presence of sulfur.
Potential Applications: Compounds incorporating sulfanyl moieties, like this one, can reflect biological benefits. They may demonstrate antimicrobial activity or enhance antioxidant potentials, which are vital in therapeutic contexts.
Coordination Chemistry: Zinc's capability to act as a Lewis acid allows it to form various complexes, making this compound relevant in coordination chemistry research.
Research Avenues: The synthetic pathways and reactivity profiles of such compounds can open doors to innovative materials in drug development, catalysis, and even agricultural applications.

As scientists and students explore the complex interplay of components in this compound, they may find new ways to utilize zinc and sulfur in achieving significant technological and medical advancements. “Understanding the chemistry of life requires harnessing the power of its building blocks.” This quote encapsulates the essence of dissecting intricate compounds like this one, which are key to unlocking nature’s desired functionalities.