potassium dicyanoargentate | Solubility of Things

Identification

Molecular formula

KAg(CN)₂

CAS number

14263-59-1

IUPAC name

potassium;silver;dicyanide

State

At room temperature, potassium dicyanoargentate is a solid compound.

Melting point (Celsius)

296.00

Melting point (Kelvin)

569.00

Boiling point (Celsius)

2 567.00

Boiling point (Kelvin)

2 840.00

General information

Molecular weight

199.10g/mol

Molar mass

199.0990g/mol

Density

2.3640g/cm³

Appearence

Potassium dicyanoargentate is typically a white crystalline solid. It is often used in the form of small crystals or powders.

Comment on solubility

Solubility of Potassium Silver Dicyanide

Potassium silver dicyanide, known chemically as KAg(CN)₂, exhibits interesting solubility characteristics that are worth noting. When considering its solubility, several factors come into play:

Water Solubility: KAg(CN)₂ is generally soluble in water, which is characteristic of many potassium compounds.
Temperature Dependence: Like many salts, its solubility may increase with temperature, making it more soluble in hot water as compared to cold.
Complex Formation: The presence of cyanide ligands may lead to the formation of complexes that can affect solubility in different solvents.

It is important to remember that while potassium salts often dissolve well in polar solvents, the presence of the silver ion can influence solubility through its unique interactions.

General Insights

In summary, the solubility of potassium silver dicyanide is influenced by:

The ion interactions in solution
The pH levels of the solvent
Temperature conditions

Overall, when working with this compound, one should always consider these factors to predict its behavior in various solutions. As with any soluble compound, understanding its solubility profile reveals crucial information for applications in chemical processes.

Interesting facts

Interesting Facts about Potassium Silver Dicyanide

Potassium silver dicyanide is a fascinating compound that exemplifies the intriguing interactions between metals and organic ligands. Known for its applications in various scientific fields, here are some compelling details to consider:

Coordination Chemistry: This compound is an excellent example of coordination chemistry, where silver ions (\^Ag⁺) are complexed by the dicyanide ligands. This interaction emphasizes the significance of the geometry and liganding in determining the properties of metal complexes.
Electrochemical Applications: Potassium silver dicyanide has notable applications in electrochemistry. Its unique properties make it a preferred choice in the development of electrochemical sensors and batteries, due to its ability to reversibly transfer electrons.
Historical Significance: The compound hails from a rich history within the realm of qualitative inorganic analysis. Silver compounds have long been pivotal in determining the presence of other anions, showcasing their analytical capabilities.
Safety Considerations: While it has intriguing applications, it is essential to handle potassium silver dicyanide with care. The toxicity of cyanide is a significant concern, accentuating the need for appropriate safety practices in laboratory environments.
Crystal Structure: Investigations into its crystal structure reveal valuable insights into the arrangement of ions and molecular interactions, pivotal for chemists aiming to predict and manipulate compound behavior.

As students and researchers delve deeper into the study of potassium silver dicyanide, they uncover not only its practical uses but also its role in understanding broader chemical principles. In the words of Sir Michael Faraday, "Nothing is too wonderful to be true if it be consistent with the laws of nature." This sentiment rings especially true in the exploration of such complex compounds.

Synonyms

Potassium dicyanoargentate

506-61-6

POTASSIUM SILVER CYANIDE

Potassium argentocyanide

RCRA waste no. P099

Potassium silver(I) cyanide

Potassium dicyanoargentate(1-)

DTXSID5024269

Argentate(1-), dicyano-, potassium

Potassium silver cyanide (KAg(CN)2)

46KRR09TKY

Potassium dicyanoargentate(I)

DTXCID204269

Silver potassium cyanide

Kyanostribrnan draselny [Czech]

RCRA WASTE NO.-P099

POTASSIUM DICYANOARGENATE(1-)

POTASSIUM SILVER CYANIDE [MI]

POTASSIUM SILVER CYANIDE [HSDB]

POTASSIUM SILVER CYANIDE AGK(CN)2

POTASSIUM ARGENTOCYANIDE (KAG(CN)2)

S-900

SILVER POTASSIUM CYANIDE (AGK(CN)2)

POTASSIUM CYANOARGENTATE(I) (KAG(CN)2)

ARGENTATE(1-), BIS(CYANO-.KAPPA.C)-, POTASSIUM

Argentate(1-), bis(cyano-.kappa.C)-, potassium (1:1)

KYANOSTRIBRNAN DRASELNY (CZECH)

SILVER POTASSIUM CYANIDE(AGK(CN)2)

SILVER POTASSIUM CYANIDE[AGK(CN)2]

RCRA waste number P099

HSDB 6053

EINECS 208-047-0

Potassium bis(cyano-C)argentate(1-)

Kyanostribrnan draselny

Potassium dicyanoargentate (KAg(CN)2)

Argentate(1-), bis(cyano-C)-, potassium

S 900

UNII-46KRR09TKY

Argentate(1-), bis(cyano-kappaC)-, potassium

Potassium dicyanoargentate(1)

Argentate(1), dicyano, potassium

Potassium bis(cyanoC)argentate(1)

POTASSIUM DICYANOARGENTATE (I)

ARGENTATES(I)(SOL), DICYANO-

Argentate(1), bis(cyanoC), potassium

argoncarbonitrile; potassiumcarbonitrile

POTASSIUM SILVER CYANIDE(KAG(CN)2)

POTASSIUM DICYANOARGENTATE(KAG(CN)2)

POTASSIUM BIS(CYANO-C)ARGENTATE (1-)

Argentate(1-), bis(cyano-C)-, potassium (9CI)

Argentate(1-), bis(cyano-kappaC)-, potassium (1:1)

un1588

potassium;silver;dicyanide

Potassium dicyanoargenate

CHEMBL3187949

HKSGQTYSSZOJOA-UHFFFAOYSA-N

Tox21_200240

FP01287

NCGC00248736-01

NCGC00257794-01

CAS-506-61-6

NS00080673

Q3723290