Hexanitrobenzene

Hexanitrobenzene
Skeletal formula
Ball-and-stick model
Names
IUPAC name
1,2,3,4,5,6-Hexanitrobenzene
Identifiers
13232-74-1 N
ChemSpider 10445694 YesY
Jmol interactive 3D Image
PubChem 12488953
Properties
C6N6O12
Molar mass 348.10 g/mol
Appearance Yellow or brown powdered crystals
Density 1.985 g/cm3
Melting point 256 to 264 °C (493 to 507 °F; 529 to 537 K)
Explosive data
Shock sensitivity None
Friction sensitivity None
Detonation velocity 9,340 m/s[1]
RE factor 1.8
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

Hexanitrobenzene, also known as HNB, is a high-density explosive compound with chemical formula C6N6O12, obtained by oxidizing the amine group of pentanitroaniline with hydrogen peroxide in sulfuric acid.

Properties

HNB has the undesirable property of being moderately sensitive to light and therefore hard to utilize safely. It is not currently used in any production explosives applications, though it is used as a precursor chemical in one method of production of TATB, another explosive.

HNB was experimentally used as a gas source for explosively pumped gas dynamic laser.[2] In this application, HNB and tetranitromethane are preferred to more conventional explosives because the explosion products CO2 and N2 are a simple enough mixture to simulate gas dynamic processes and quite similar to conventional gas dynamic laser medium. The water and hydrogen products of many other explosives could interfere with vibrational states of CO2 in this type of laser.

Preparation

During World War II a method of synthesis of hexanitrobenzene was suggested in Germany, and the product was supposed to be manufactured on a semi-industrial scale according to the following scheme:

C6H3(NO2)3 → C6H3(NHOH)3 (partial reduction)
C6H3(NHOH)3 → C6(NO2)3(NHOH)3 (nitration)
C6(NO2)3(NHOH)3 → C6(NO2)6 (oxidation)

Complete nitration of benzene is practically impossible, because the nitro groups are deactivating groups for further nitration.

Additional properties

See also

Notes

References

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