Nickel(II) Formate | Solubility of Things

Identification

Molecular formula

Ni(HCOO)₂

CAS number

14839-90-6

IUPAC name

nickelous;diformate

State

At room temperature, Nickel(II) formate is typically in a solid state.

Melting point (Celsius)

255.00

Melting point (Kelvin)

528.00

Boiling point (Celsius)

0.00

Boiling point (Kelvin)

0.00

General information

Molecular weight

180.64g/mol

Molar mass

180.6360g/mol

Density

4.3000g/cm³

Appearence

Nickel(II) formate typically appears as a green crystalline solid. It may also appear as a powder depending on its form and purity.

Comment on solubility

Solubility of Nickelous Diformate

Nickelous diformate, with the chemical formula Ni(HCOO)₂, exhibits unique solubility characteristics that merit discussion. The solubility of this compound in various solvents can be influenced by several factors:

Water Solubility: Nickelous diformate is moderately soluble in water. This is primarily due to the polar nature of the formate ions, which interact favorably with water molecules.
Solvent Variability: The solubility of nickelous diformate can vary significantly in organic solvents. For instance, it tends to be less soluble in nonpolar solvents due to the absence of hydrogen bonding capabilities seconded by water.
Temperature Influence: As with many salts, the solubility of nickelous diformate can increase with temperature, making it more soluble in warmer conditions.
pH Levels: The solubility can also be affected by the acidity or alkalinity of the solution, as formate ions may undergo protonation or deprotonation reactions.

In conclusion, nickelous diformate is a compound whose solubility is not only appreciable in aqueous solutions but can also be tailored through adjustments of temperature, solvent type, and environmental conditions. Understanding its solubility behavior is crucial for its application in various chemical processes and research.

Interesting facts

Interesting Facts about Nickelous Diformate

Nickelous diformate is an intriguing chemical compound with various applications and characteristics that make it noteworthy in the field of chemistry. Below are some captivating aspects of this compound:

Metal Complexes: Nickelous diformate is often studied for its role in forming metal-organic frameworks, which are essential in diverse fields such as catalysis, gas storage, and separation processes.
Industrial Uses: This compound can be used as a precursor for the synthesis of nickel-based catalysts, which are critical in various industrial reactions, including hydrogenation and polymerization.
Bioactivity: Nickel compounds, including nickelous diformate, have been investigated for their biological activities, showing potential antimicrobial properties.
Catalytic Properties: The presence of nickel in the compound allows for unique catalytic processes that are valuable in organic synthesis.

As a chemist or student diving into the world of transition metal compounds, understanding the behavior and applications of nickelous diformate can open doors to innovative research and practical uses. The versatility of this compound showcases the profound link between chemistry and practical applications in our everyday lives.

“The discovery of nickelous diformate can inspire breakthroughs not only in chemistry but also in materials science and pharmaceuticals.”

Synonyms

NICKEL FORMATE

Nickelous formate

Formic acid, nickel salt

Y4YT27N8QN

15843-02-4

AI3-26109

(formyloxy)nickelio formate

239-946-6

Nickel diformate

3349-06-2

nickel(2+);diformate

Formic acid, nickel(2+) salt

Formic acid, nickel(2+) salt (2:1)

3349-06-2; 15694-70-9(dihydrate)

UNII-Y4YT27N8QN

HSDB 1191

EINECS 239-946-6

NICKEL (II) FORMATE

NICKEL FORMATE [MI]

NICKEL FORMATE [HSDB]

SCHEMBL198180

DTXSID40890523

EINECS 222-101-0

AKOS015837383

NS00083196

FORMIC ACID NICKEL(2+) SALT (2:1)

Q18002874