Nickel(II) dimethylglyoxime | Solubility of Things

Identification

Molecular formula

Ni(C₄H₈N₂O₂)₂

CAS number

13923-62-9

IUPAC name

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

State

At room temperature, Nickel(II) dimethylglyoxime is a solid. It is usually encountered as a bright red powder

Melting point (Celsius)

240.00

Melting point (Kelvin)

513.00

Boiling point (Celsius)

694.00

Boiling point (Kelvin)

967.00

General information

Molecular weight

288.92g/mol

Molar mass

288.9150g/mol

Density

1.9780g/cm³

Appearence

Nickel(II) dimethylglyoxime typically appears as a red solid. It forms a bright red precipitate when used in qualitative analysis for nickel ions.

Comment on solubility

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

The solubility of nickelous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate can be characterized by various factors influencing its behavior in different solvents. Understanding these factors is crucial for applications in chemical reactions, environmental behavior, and biological interactions.

Factors Affecting Solubility

Polarity of the Solvent: This compound's solubility may be significantly influenced by the polarity of the solvent. Typically, polar solvents will interact favorably with polar functional groups present in the compound.
Temperature: Increasing the temperature generally enhances solubility for many solid compounds, but the effect can vary based on the specific interactions at play in this compound.
pH Levels: As a complex compound, nickelous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate may exhibit variance in solubility at different pH levels, affecting ionic forms and solvation.

General Observations

While specific solubility data for this compound might be limited, it is reasonable to anticipate that:

It could be moderately soluble in water due to the presence of sulfanyl groups.
Solubility may improve in organic solvents that can effectively solvate the molecular structure.

In summary, the precise solubility characteristics of nickelous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate will require empirical studies for optimal understanding, as solubility is a multifaceted property influenced by various environmental and chemical factors.

Interesting facts

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

This intriguing compound belongs to a class of nickel complexes, which are notable for their diverse applications in various fields. Here are some fascinating points about this compound:

Connection to Nickel: Nickel is an essential trace element that plays a crucial role in biological systems. It is known to participate in enzyme functions, particularly in some bacteria and plants.
Sulfanyl Group: The presence of sulfanyl groups in the compound indicates potential for interesting reactivity. Thioethers and thioamides often exhibit unique electronic properties due to sulfur's ability to donate electrons.
Biological Relevance: Compounds containing sulfur are frequently investigated for their biological activities, including antimicrobial and antiviral properties. Their structural motifs often mimic natural compounds, which makes them valuable in drug design.
Application in Catalysis: Nickel complexes are significant in catalysis, particularly in processes such as cross-coupling reactions and hydrogenation. This compound could potentially serve as a catalyst or catalyst precursor.
Programming Potential: Recent advancements in material science have led to the exploration of transition metal compounds, such as nickel, in developing new materials such as superconductors and batteries.

In summary, the complex nature of nickelous 1-sulfanyl-N-[2-[[sulfanyl(sulfido)methylene]amino]ethyl]methanimidothioate highlights its potential importance across various domains, from biological systems to industrial applications. As scientists continue to explore these compounds, new and exciting uses are likely to follow!