Mendeleev's Periodic Table > Ir - Iridium

Ir - Iridium

This precious transition metal was discovered by Tennant in 1803 in England. The name iridium is appropriate, for its salts are highly coloured. Iridium is white, similar to platinum, but with a slight yellowish cast. It is very hard and brittle, making it very hard to machine, form, or work. It is the most corrosion resistant metal known, and was used in making the standard metre bar of Paris, which is a 90% platinum-10% iridium alloy. This metre bar has since been replaced as a fundamental unit of length (see Krypton). Iridium is not attacked by any of the acids nor by aqua regia, but is attacked by molten salts, such as NaCl and NaCN.

Ruthenium, rhodium, palladium, osmium, iridium, and platinum together make up a group of elements referred to as the platinum group metals (PGM).

Atomic number	-	77		Density	g/mL	22	.5
Atomic weight	u	192	.22	Melting point	K	2716
Bonding radius	A	1	.27	Boiling point	K	4701
Atomic radius	A	1	.87	Heat of vaporization	kJ/mol	604
Ionization Potential	V	9	.1	Heat of fusion	kJ/mol	26	.1
Electronegativity	-	2	.2	Specific heat	J/gK	0	.13
The oxide is mildly basic.				Crystal are face centered cubic.
Electron config. : [Xe] 4f¹⁴ 5d⁷ 6s²

Isotopes of Ir (Iridium) :

MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	166 5 msec a,6.700 MeV Re-162 165.98550	167 5 msec a/p,6.540 MeV Re-163/Os-166 166.98164	168 a,6.410 MeV Re-164 167.97992	169 0.4 sec a/EC/p,6.280 Re-165/Os-169/Os-168 168.97639
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	170 1.05 sec a/EC,6.170 Re-166/Os-170 169.97502	171 1.5 sec a/EC/p,6.159 Re-167/Os-171/Os-170 170.97180	172 4.4 sec a/EC,9.800 Re-168/Os-172 171.97069	173 9.0 sec a/EC,7.400 Re-169/Os-173 172.96770
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	174 9 sec a/EC,9.000 Re-170/Os-174 173.96682	175 9 sec a/EC,6.600 Re-171/Os-175 174.96414	176 8 sec a/EC,8.000 Re-172/Os-176 175.96349	177 30 sec a/EC,5.700 Re-173/Os-177 176.96113
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	178 12 sec EC,7.200 MeV Os-178 177.96103	179 79 sec EC,4.900 MeV Os-179 178.95909	180 1.5 min EC,6.400 MeV Os-180 179.95920	181 4.90 min EC,4.070 MeV Os-181 180.95757
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	182 15 min EC,5.610 MeV Os-182 181.95820	183 57 min EC,3.450 MeV Os-183 182.95681	184 3.09 hr EC,4.600 MeV Os-184 183.95738	185 14.4 hr EC,2.370 MeV Os-185 184.95658
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	186 16.64 hr EC,3.831 MeV Os-186 185.95795	187 10.5 hr EC,1.502 MeV Os-187 186.95736	188 41.5 hr EC,2.809 MeV Os-188 187.95885	189 13.2 da EC,1.009 MeV Os-189 188.95871
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	190 11.78 da EC,2.000 MeV Os-190 189.96059	191 37.3% Stable 190.96059	192 73.830 da B-/EC,1.460 Pt-192/Os-192 191.96260	192a 1.45 min B-,1.517 MeV Pt-192 191.96266
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	193 62.7% Stable 192.96292	194 19.28 hr B-,7.100 MeV Pt-194 193.96507	195 2.5 hr B-,1.120 MeV Pt-195 194.96597	196 52 sec B-,3.210 MeV Pt-196 195.96838
MASS abundancy Halflife Particle, Energy Decay Product(s) Isotopic Mass	196a 1.40 hr B-,3.620 MeV Pt-196 195.96882	197 5.8 min B-,2.155 MeV Pt-197 196.96963	198 8 sec B-,4.100 MeV Pt-198 197.97228

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