4-Dimethylaminophenylpentazole

4-Dimethylaminophenylpentazole
4-Dimethylaminophenylpentazole molecule
Names
IUPAC name
4-dimethylaminophenylpentazole
Identifiers
3D model (Jmol) Interactive image
Interactive image
ChemSpider 10447638 YesY
PubChem 23279314
Properties
C8H10N6
Molar mass 190.205
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

4-Dimethylaminophenylpentazole is an unstable, explosive compound that contains the rare pentazole ring, which is composed of five nitrogen atoms. The electron donating effect of the 4-dimethylamino substituent on the phenyl ring makes this compound one of the more stable of the phenylpentazoles. At room temperature, its chemical half-life is only a few hours, although storage is possible at cryogenic temperatures. The compound was first prepared in 1956[1][2][3] along with other substituted phenylpentazoles. Studies have been conducted on various other derivatives, though necessarily limited by the instability of these compounds.[4][5][6][7][8] Some more highly substituted derivatives, such as 2,6-dihydroxy-4-dimethylaminophenylpentazole, are slightly more stable but conversely, more difficult to make.[9][10] Current research has focused on forming transition metal complexes of these pentazole derivatives, as the pentazole ring should be stabilised by bonding to the metal centre.[11][12][13]

References

  1. Huisgen R, I. Ugi. Zur Losung eines klassichen Problems der organischen Stickstoff-Chemie. Angewandte Chemie. 1956; 68:705-706.
  2. Ugi I, R. Huisgen. Pentazole II. Die Zerfallsgeschwindigkeit der Arylpentazole. Chemische Berichte. 1958; 91:531-537.
  3. Ugi I, Perlinger H, Perlinger L. Pentazole III. Kristallisierte Aryl-pentazole. Chemische Berichte 1958; 98:2324-2329,
  4. John D. Wallis and Jack D. Dunitz. An all-nitrogen aromatic ring system: structural study of 4-dimethyl-aminophenylpentazole. Journal of the Chemical Society. Chemical Communications. 1983: 910-911.
  5. Butler, R. N.; Collier, S.; Fleming, A. F. M. (1996). "Pentazoles: proton and carbon-13 NMR spectra of some 1-arylpentazoles: kinetics and mechanism of degradation of the arylpentazole system". Journal of the Chemical Society, Perkin Transactions 2 (5): 801. doi:10.1039/P29960000801.
  6. Butler, R. N.; Fox, A.; Collier, S.; Burke, L. A. (1998). "Pentazole chemistry: the mechanism of the reaction of aryldiazonium chlorides with azide ion at −80 °C: concerted versus stepwise formation of arylpentazoles, detection of a pentazene intermediate, a combined 1H and 15N NMR experimental and ab initio theoretical study". Journal of the Chemical Society, Perkin Transactions 2 (10): 2243. doi:10.1039/A804040K.
  7. Benin V, Kaszynski P, Radziszewski JG (February 2002). "Arylpentazoles revisited: experimental and theoretical studies of 4-hydroxyphenylpentazole and 4-oxophenylpentazole anion". The Journal of Organic Chemistry. 67 (4): 1354–8. doi:10.1021/jo0110754. PMID 11846686.
  8. Carlqvist, P.; Östmark, H.; Brinck, T. (2004). "The Stability of Arylpentazoles". The Journal of Physical Chemistry A. 108 (36): 7463. doi:10.1021/jp0484480.
  9. Efforts to synthesize the pentazolate anion
  10. David Adam. The synthesis and characterisation of halogen and nitro phenyl azide derivatives as highly energetic materials. PhD dissertation, Ludwig-Maximilans-Universität München, 2001
  11. Tsipis AC, Chaviara AT (February 2004). "Structure, energetics, and bonding of first row transition metal pentazolato complexes: a DFT study". Inorganic Chemistry. 43 (4): 1273–86. doi:10.1021/ic035112g. PMID 14966962.
  12. Burke, L. A.; Fazen, P. J. (2004). "Consideration of spin states in determining the structure and decomposition of the transition metal pentazoles FeClN5, Fe(N5)2, Fe(H2O)4ClN5, and Fe(NH3)4ClN5Electronic supplementary information (ESI) available: energies for all structures with the various basis sets. See http://www.rsc.org/suppdata/cc/b3/b315812h/". Chemical Communications (9): 1082. doi:10.1039/B315812H. External link in |title= (help)
  13. Burke, L. A.; Fazen, P. J. (2009). "Correlation analysis of the interconversion and nitrogen loss reactions of aryl pentazenes and pentazoles derived from aryl diazonium and azide ions". International Journal of Quantum Chemistry. 109 (15): 3613. Bibcode:2009IJQC..109.3613B. doi:10.1002/qua.22408.


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