Osmium (Os)
Stable isotopes of osmium available from ISOFLEX
| Isotope | Z(p) | N(n) | Atomic Mass | Natural Abundance | Enrichment Level | Chemical Form |
| Os-184 | 76 | 108 | 183.952491 | 0.02% | ≥96.90% | Metal |
| Os-186 | 76 | 110 | 185.953838 | 1.59% | >99.00% | Metal |
| Os-187 | 76 | 111 | 186.955748 | 1.96% | >99.00% | Metal |
| Os-188 | 76 | 112 | 187.955836 | 13.24% | ≥94.00% | Metal |
| Os-189 | 76 | 113 | 188.958145 | 16.15% | >99.00% | Metal |
| Os-190 | 76 | 114 | 189.958445 | 26.26% | >99.00% | Metal |
| Os-192 | 76 | 116 | 191.961479 | 40.78% | >99.00% | Metal |
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Osmium was discovered in 1803 by Smithson Tennant. Its name derives from the Greek word osme, meaning “smell.”
A bluish-white, lustrous, brittle and fairly hard metal of the platinum group, osmium has a close-packed hexagonal system. On heating in air, it gives off the poisonous fume of osmium tetroxide. It has the highest specific gravity and melting point of the platinum metals. It is metallurgically unworkable and has a magnetic susceptibility of 0.052 x 10-6 cm3/g. It is insoluble in water, HCl, H2SO4 and ammonia; slightly soluble in nitric acid and aqua regia; and solubilized by fusion with caustic soda, sodium peroxide, potassium chlorate and the mass dissolved in water. In its finely divided form, it reacts slowly with oxygen or air at ambient temperatures to form osmium tetroxide. The bulk metal is stable in oxygen at ordinary temperatures but reacts at 200 ºC, forming osmium tetroxide. Osmium is stable in mineral acids, even under boiling conditions. The metal, however, is attacked by fused alkalis such as caustic soda and caustic potash, particularly in the presence of an oxidizing agent such as sodium peroxide, sodium hypochlorite or sodium nitrite, forming osmates.
The commercial applications of osmium are limited and considerably fewer than those of other platinum group metals. Its alloys are very hard and are used to make tips of fountain-pen nibs, phonograph needles and pivots. The metal also exhibits effective catalytic properties in hydrogenation and other organic reactions. Such catalytic applications, however, are limited; osmium fails to replace other noble metals, particularly palladium and platinum, which cost less and are more effective as catalysts.
Properties of Osmium
| Name | Osmium |
| Symbol | Os |
| Atomic number | 76 |
| Atomic weight | 190.2 |
| Standard state | Solid at 298 ºK |
| CAS Registry ID | 7440-04-2 |
| Group in periodic table | 8 |
| Group name | Precious metal or platinum group metal |
| Period in periodic table | 6 |
| Block in periodic table | d-block |
| Color | Bluish-gray |
| Classification | Metallic |
| Melting point | 3050 °C |
| Boiling point | 5027 °C |
| Vaporization point | 5300 ºC |
| Electrical resistivity | 9.5 µΩ·cm at 20 ºC |
| Electronegativity | 2.2 |
| Specific heat | 0.131 kJ/kg K at 20 ºC |
| Heat of vaporization | 630 kJ·mol-1 at 5027 ºC |
| Heat of fusion | 31 kJ·mol-1 |
| Density of liquid | 20 g/cm3 at 3050 °C |
| Density of solid | 22.48 g/cm3 |
| Electron configuration | [Xe]4f145d66s2 |
| Oxidation states | +1, +2, +3, +4, +5, +6, +7, +8 |
| Most common oxidation states | +3, +4, +6 |
| Moh’s hardness scale | 7.0 |
Research
- High precision osmium stable isotope measurements by double spike MC-ICP-MS and N-TIMS
- Osmium isotopic homogeneity in the CK carbonaceous chondrites
- Rhenium-osmium isotopes and highly siderophile elements in ultramafic rocks from the Eoarchean Saglek Block, northern Labrador, Canada: implications for Archean mantle evolution