CaI2 has been used as a CaI2:Eu2+ single crystal detector to measure low-energy X-ray scintillation. The results show that the calcium iodide scintillator can be used to fabricate long-wavelength X-ray thin-film detectors due to its layered structure, perfect cleavage, and high light output.

Addition of Me3SiCN to prepolarized aromatic aldehydes and ketones ArC (double bonded O)R afforded cyanohydrin derivatives, demonstrated to be catalyzed by amidinated calcium iodide 101 (Fig. 90) 209

Reaction of the same [H2B(ImtBu)2]I ligand with two equivalents. KN(SiMe3)2 and an equivalent. CaI2, leading to the formation of heterozygous calcium iodide

Tris(imidazolin-2-ylidene-1-yl)borate bromide was treated with calcium iodide and four equivalents. KN(SiMe3)2 leads to the formation of heterozygous organic calcium amides.

Hydroxyl functions in partially protected sugars can also be achieved using calcium iodide as the electrolyte.

The electrochemical oxidation of carbohydrates is catalyzed by the bromide-bromide system, which rapidly converts any potential aldehyde functions to carboxylic acids.

Calcium iodide is an inorganic compound made of calcium and iodine. It has the chemical formula CaI2. Calcium iodide can be formed using calcium oxide, calcium carbonate or calcium hydroxide with hydrochloric acid. In this short article, learn about the formulation of calcium iodide, its chemical structure, uses, and properties.