Hydrogen cyanide

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Hydrogen cyanide
Image:Hydrogen cyanide structure.png
General
Systematic name	Hydrogen cyanide
Other names	Hydrocyanic acid prussic acid, formonitrile formic anammonide carbon hydride nitride cyclon
Molecular formula	HCN
Molar mass	27.0256 g/mol
Appearance	Colorless gas or pale blue highly volatile liquid.
CAS number	Template:CASREF
Properties
Density and phase	0.687 g/cm3, liquid.
Solubility in water	Completely miscible.
Melting point	-13.4°C (259.75 K)
Boiling point	26°C (299.15 K)
Acidity (pKa)	9.2 to 9.3
Structure
Molecular shape	Linear
Dipole moment	2.98 D
Hazards
MSDS	External MSDS
Main hazards	Highly toxic, highly flammable.
NFPA 704	Template:Nfpa
Flash point	−17.78°C
R/S statement	R: Template:R12, Template:R26, Template:R27, Template:R28, Template:R32. S: Template:S1, Template:S2, Template:S7, Template:S9, Template:S13, Template:S16, Template:S28, Template:S29, Template:S45.
RTECS number	MW6825000
Supplementary data page
Structure and properties	n, εr, etc.
Thermodynamic data	Phase behaviour Solid, liquid, gas
Spectral data	UV, IR, NMR, MS
Related compounds
Other anions	Hydrogen fluoride
Other cations	Sodium cyanide Potassium cyanide
Related compounds	Cyanogen Cyanogen chloride
Except where noted otherwise, data are given for materials in their standard state (at 25°C, 100 kPa) Infobox disclaimer and references

Hydrogen cyanide is a chemical compound with chemical formula HCN. A solution of hydrogen cyanide in water is called hydrocyanic acid or prussic acid. Pure hydrogen cyanide is a colorless, very poisonous, and highly volatile liquid that boils slightly above room temperature at 26 °C, thereby generating hydrogen cyanide gas. Hydrogen cyanide has a faint, bitter, almond-like odor that some people are unable to smell due to a genetic trait. Hydrogen cyanide is weakly acidic and partly ionizes to become the cyanide ion CN^– in aqueous solution, resulting in a colorless volatile liquid with the typical hydrogen cyanide odor. The salts of hydrogen cyanide are known as cyanides.

Contents 1 Production and synthesis 2 Occurrence and applications 3 Hydrogen cyanide as a chemical weapon 4 Reactions 5 Source 6 See also 7 External links

Production and synthesis

Hydrogen cyanide is produced in large quantities by two processes. In the Degussa process, ammonia and methane react at 1200 °C over a platinum catalyst:

CH₄ + NH₃ → HCN + 3 H₂

This reaction is akin to steam reforming, the reaction of methane and water. In the Andrussov process, oxygen is added

CH₄ + NH₃ + 1.5 O₂ → HCN + 3 H₂O

In the laboratory, small amounts of HCN are produced by the addition of acids to alkali metal salts of cyanide:

H⁺ + NaCN → HCN + Na⁺

This reaction is the basis of accidental poisonings because the acid converts the nonvolatile salt into the gaseous HCN.

Occurrence and applications

Cyanide is used in tempering steel, dyeing, explosives, engraving, the production of acrylic resin plastic, and other organic chemical products. Its use in insect killing jars has now largely been replaced by less toxic ethyl acetate.

Fruits that have a pit, such as cherries or apricots, often contain small quantities of hydrogen cyanide in the pit. Bitter almonds, from which almond oil and flavoring are made, also contain hydrogen cyanide. Some millipedes release hydrogen cyanide as a defense mechanism. Hydrogen cyanide is contained in the exhaust of vehicles, in tobacco smoke, and in the smoke of burning nitrogen-containing plastics.

An HCN concentration of 300 parts per million of air will kill a human within a few minutes. The toxicity is caused by the cyanide ion. The mechanism of this toxicity, and the uses of the poison, are described on the cyanide page. Hydrogen cyanide (under the brand name Zyklon B) was perhaps most infamously employed by the Nazi regime in Germany as a method of mass-execution. Hydrogen cyanide is now listed under schedule 3 of the Chemical Weapons Convention.

Hydrogen cyanide forms a foul-tasting compound when it combines with tobacco smoke. For this reason, some chemists choose to have a lit cigarette in their mouth while they are working with it, as they receive an early warning against possible cyanide poisoning.

Hydrogen cyanide gas in air is explosive at concentrations over 56,000 ppm.

Hydrogen cyanide as a chemical weapon

Most military sources list hydrogen cyanide among the chemical warfare agents causing general poisoning. Athough there have been no verified instances of this compound being used as a weapon, it has been reported that hydrogen cyanide may have been employed by Iraq in the war against Iran and against the Kurds in northern Iraq during the 1980s[1]. A form of hydrogen cyanide known as Zyklon B was used during World War II in the Nazi gas chambers of Auschwitz and Majdanek.

Reactions

1. hydrogen cyanide + ketone or aldehyde → cyanohydrin

Source

• Institut national de recherche et de sécurité (1997). "Cyanure d'hydrogène et solutions aqueuses". Fiche toxicologique n° 4, Paris:INRS, 5pp. (PDF file, in French)

See also

• Cyanide
• Peoples Temple

External links

• International Chemical Safety Card 0492
• Hydrogen cyanide and cyanides (CICAD 61)
• National Pollutant Inventory - Cyanide compounds fact sheet
• NIOSH Pocket Guide to Chemical Hazards
• NIST Standard Reference Database
• European Chemicals Bureau
• CSST (Canada)
• OSHA: HCN Health Guidelines
• HSE recommendations for first aid treatment of cyanide poisoning (UK)

Template:Chemical warfarecs:Kyanovodík de:Cyanwasserstoff es:Cianuro de hidrógeno eo:Hidrogena cianido fr:Cyanure d'hydrogène gl:Cianuro de hidróxeno it:Acido cianidrico nl:Blauwzuur ja:シアン化水素 no:Hydrogencyanid nn:Blåsyre pl:Cyjanowodór pt:Ácido cianídrico ru:Синильная кислота sl:Cianovodikova kislina sv:Vätecyanid zh:氰化氢