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Chemical elements
Iridium
Isotopes
Energy
Production
Application
Physical Properties
Chemical Properties
Iridium Monochloride
Iridium Dichloride
Iridium Trichloride
Potassium Chloriridite
Sodium Chloriridite
Ammonium Chloriridite
Aquo Chloriridites
Iridium Tetrachloride
Potassium Chloriridate
Sodium Chloriridate
Ammonium Chloriridate
Silver Chloriridate
Thallium Chloriridate
Iridium Tribromide
Iridium Tetrabromide
Potassium Bromiridate
Sodium Bromiridate
Ammonium Bromiridate
Iridium Oxybromide
Iridium Tri-iodide
Potassium Iodiridite
Iridium Tetra-iodide
Potassium Iodiridate
Iridium Monoxide
Iridium Sesquioxide
Iridium Dioxide
Iridium Trioxide
Iridium Monosulphide
Iridium Sesquisulphide
Iridium Disulphide
Iridium Sesquisulphite
Potassium Iridium Sulphite
Iridium Sesquisulphate
Potassium Iridium Alum
Ammonium Iridium Alum
Caesium Iridium Alum
Rubidium Iridium Alum
Iridium Disulphate
Iridium Sesquiselenide
Hydrogen Iridi-nitrite
Potassium Iridi-nitrite
Sodium Iridi-nitrite
Ammonium Iridi-nitrite
Hydrogen Iridicyanide
Potassium Iridicyanide
Barium Iridicyanide
PDB 1c1k-4enb
Rubidium Iridium Alum,
Rb
2
S
O
4
.
Ir
2
(
S
O
4
)
3
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Rubidium Iridium Alum,
Rb
2
S
O
4
.
Ir
2
(
S
O
4
)
3
.24
H
2
O
, crystallises in pale yellow octahedra. Both in the solid state and in solution this alum is stable in air. It melts at 108° to 109° C., yielding a yellowish red liquid.
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