Methyl azide

slightly soluble Solubility alkane, ether Explosive data Shock sensitivity High Friction sensitivity High Hazards Occupational safety and health (OHS/OSH):

Main hazards

Highly explosive Related compounds

Related compounds

Hydrazoic acid, Chlorine azide, Ethyl azide

Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

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Infobox references

Chemical compound

Methyl azide is an organic compound with the formula CH₃N₃. It is a white solid and it is the simplest organic azide.

Preparation and properties

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Methyl azide can be prepared by the methylation of sodium azide, for instance with dimethyl sulfate in alkaline solution, followed by passing through a tube of anhydrous calcium chloride or sodium hydroxide to remove contaminating hydrazoic acid.^[1] The first synthesis was reported in 1905.^[2]

Decomposition to a nitrene is a first-order reaction:

CH₃N₃ → CH₃N + N₂

The product, like its notional tautomer methanimine, polymerizes at room temperature.^[3]

Methyl azide might be a potential precursor in the synthesis of prebiotic molecules via nonequilibrium reactions on interstellar ices initiated by energetic galactic cosmic rays (GCR) and photons.^[4]

Safety precautions

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Methyl azide is stable at ambient temperature but may explode when heated or disturbed.^[1] Presence of mercury increases the sensitivity to shock and spark. It is incompatible with methanol and dimethyl malonate.^[5] When heated to decomposition, it emits toxic fumes of NO
_x.^{[citation needed ]} It can be stored indefinitely in the dark at −80 °C.^[1]

References

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^ ^a ^b ^c Chae, Junghyun (2008年03月14日), "Methyl Azide", in John Wiley & Sons, Ltd (ed.), Encyclopedia of Reagents for Organic Synthesis, Chichester, UK: John Wiley & Sons, Ltd, pp. rn00795, doi:10.1002/047084289x.rn00795, ISBN 978-0-471-93623-7
^ Dimroth, O.; Wislicenus, W. (1905). "Ueber das Methylazid". Berichte der Deutschen Chemischen Gesellschaft . 38 (2): 1573–1576. doi:10.1002/cber.19050380254.
^ O'Dell, M. S.; Darwent, B. (1970). "Thermal decomposition of methyl azide". Canadian Journal of Chemistry . 48 (7): 1140–1147. doi:10.1139/v70-187 .
^ Quinto-Hernandez, A.; Wodtke, A. M.; Bennett, C. J.; Kim, Y. S.; Kaiser, R. I. (2011). "On the Interaction of Methyl Azide (CH₃N₃) Ices with Ionizing Radiation: Formation of Methanimine (CH₂NH), Hydrogen Cyanide (HCN), and Hydrogen Isocyanide (HNC)". The Journal of Physical Chemistry A. 115 (3): 250–264. doi:10.1021/jp103028v. PMID 21162584.
^ Urben, P. G., ed. (2006). Bretherick's Handbook of Reactive Chemical Hazards (7th ed.). Elsevier. ISBN 9780123725639.

External links

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Graner, G.; Hirota, E.; Iijima, T.; Kuchitsu, K.; Ramsay, D. A.; Vogt, J.; Vogt, N. (1999). "CH₃N₃ Methyl azide". In Kuchitsu, K. (ed.). Group II Molecules and Radicals: Numerical Data and Functional Relationships in Science and Technology. Landolt-Börnstein - Group II Molecules and Radicals. Vol. 25 B. p. 1. doi:10.1007/10653318_320. ISBN 3-540-63645-5.
"Methyl azide". NIST Webbook. National Institute for Standards and Technology.

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v t e Inorganic compounds of carbon and related ions
Compounds	CF CO CO₂ CO₃ CO₄ CO₅ CO₆ COS CS C₂S₂ CS₂ CSe₂ C₃O₂ C₃S₂ SiC
Carbon ions	Carbides [:C≡C:]²⁻, [::C::]⁴⁻, [:C=C=C:]⁴⁻ Cyanide [:C≡N:]⁻ Cyanate [:O−C≡N:]⁻ Thiocyanate [:S−C≡N:]⁻ Fulminate [:C≡N−O:]⁻ Thiofulminate [:C≡N−S:]⁻
Nanostructures	Graphite intercalation compounds Fullerides
Oxides and related	Oxides Nitrides Metal carbonyls Carbonic acid Bicarbonates Carbonates