Osmic acid
Chemical formula
OsO4 |
| Appearance |
colourless or pale-yellow solid |
|
Physical
|
| Formula weight |
254.2 |
| Melting point |
42 °C |
| Boiling point |
129.7 °C |
| Density |
4.9 × 10³ kg/m³ |
| Crystal structure |
|
| Solubility |
6 g/100 ml water |
|
Thermochemistry
|
| ΔfH0gas |
kJ/mol |
| ΔfH0liquid |
kJ/mol |
| ΔfH0solid |
kJ/mol |
| S0gas, 1 bar |
J/mol·K |
| S0liquid, 1 bar |
J/mol·K |
| S0solid |
J/mol·K |
|
Safety
|
| Ingestion |
Causes nausea and abdominal pain, possibly fatal. |
| Inhalation |
Severe irritation and burning sensation with coughing and shortness of breath. Possible delayed lung edema and bronchopneumonia. |
| Skin |
Irritation and possible burns. |
| Eyes |
Tearing, pain, and burning sensation, leading to corneal staining and possible complete loss of sight. |
| More info |
|
|
SI units were used where possible. Unless otherwise stated, standard conditions were used.
Disclaimer and references
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The
chemical compound osmium tetroxide (
OsO4) is an
oxide of the element
osmium, in which it attains its highest
oxidation number of 8.
Osmium tetroxide
sublimates at
room temperature and is readily formed when powdered osmium is exposed to air. In fact it explains the name of the
element, derived from a
Greek word for stench. The oxide is a powerful staining agent in regular use in
transmission electron microscopy (TEM) to provide contrast to the image. It also stains the human
cornea, which can lead to blindness if proper safety precautions are not observed.
In organic synthesis it is sometimes used to oxidise
alkenes to the dialcohols. One catalytic reaction with osmium tetroxide is the
Sharpless bishydroxylation named after
K. Barry Sharpless.
Osmium tetroxide is highly poisonous, even at very low exposure levels, and must be handled with appropriate precautions. In particular, inhalation at concentrations well below those at which a smell can be perceived can lead to edema of the lungs, and subsequent death. Noticeable symptoms can take hours to appear after exposure.
On the 6th April 2004 the American news organisation ABC News reported that British intelligence sources believed they had foiled a plot to denonate a bomb involving the chemical due to its poisonous properties.
