Manganese(II) thiocyanate | Solubility of Things

Identification

Molecular formula

Mn(SCN)₂

CAS number

6152-65-4

IUPAC name

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

State

At room temperature, Manganese(II) thiocyanate is a solid.

Melting point (Celsius)

0.00

Melting point (Kelvin)

0.00

Boiling point (Celsius)

0.00

Boiling point (Kelvin)

0.00

General information

Molecular weight

118.97g/mol

Molar mass

118.9670g/mol

Density

2.6907g/cm³

Appearence

Manganese(II) thiocyanate typically appears as a crystalline solid. It may range from colorless to pale pink or light red, depending on the presence of impurities or crystal structure variations.

Comment on solubility

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

The solubility of manganous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate can be characterized as follows:

Polar vs. Non-Polar Solvents: This compound contains multiple thiol (-SH) groups, which often renders it soluble in polar solvents such as water due to hydrogen bonding.
Influence of pH: The solubility can be affected by the acidity or basicity of the solution, as ionization of the thiol groups may enhance solubility in aqueous environments.
Complexation: This compound may form soluble complexes with metal ions, which can increase its overall solubility in certain conditions.
Temperature Factor: Solubility often increases with temperature. Thus, higher temperatures might facilitate greater dissolution of the compound in solvents.

In summary, "The solubility of manganous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate is dependent on several factors such as solvent polarity, pH, and temperature." Understanding these interactions is crucial for applications in chemical synthesis and analysis.

Interesting facts

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

This intriguing compound, with a complex name, embodies a fascinating intersection of chemistry that sparks curiosity among researchers and students alike. Here are some captivating aspects worth exploring:

Functional Groups: The presence of multiple functional groups, such as thioate and sulfanyl, showcases the intricate connections between sulfur compounds and their roles within biological and chemical contexts.
Role in Biological Systems: Transition metal complexes, particularly those containing manganese, are known for their biochemical significance, often participating in enzymatic reactions and influencing metabolic pathways.
Potential Applications: Compounds like this are of increasing interest in fields such as pharmacology and material science, where they may contribute to developing new drugs or catalysts.
Structure and Stability: The unique structural arrangement of the compound not only impacts its reactivity but also exemplifies the versatility of coordinate bonding seen in transition metals.
Environmental Relevance: Manganese plays a critical role in various environmental processes, including the degradation of pollutants, making the study of such compounds important for ecological chemistry.

In summary, this compound is a striking representation of how diverse chemical structures can lead to significant implications across multiple scientific disciplines. As one quote aptly states, "In chemistry, the simplest things can lead to the most complex stories." Exploring the realms that compounds like manganous 1-sulfanyl can unlock is where the true excitement of chemistry lies.