Tetrazane: Hartree−Fock, Gaussian-2 and -3, and Complete Basis Set

Hitesh Sharma , Isha Garg , Keya Dharamvir and V. K. Jindal. The Journal of Physical Chemistry C 2010 114 (19), 9153-9160. Abstract | Full Text HTML |...
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J. Phys. Chem. A 2001, 105, 465-470

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Tetrazane: Hartree-Fock, Gaussian-2 and -3, and Complete Basis Set Predictions of Some Thermochemical Properties of N4H6 David W. Ball Department of Chemistry, CleVeland State UniVersity, CleVeland, Ohio 44115 ReceiVed: July 26, 2000; In Final Form: October 16, 2000

Optimized geometries, vibrational frequencies, conformation energies, heats of formation, and proton affinities for tetrazane, H2N-NH-NH-NH2, are determined using various-level ab initio methods. Consequences for tetrazane’s role as a high-energy material are discussed.

Introduction Earnshaw,1

According to Greenwood and nitrogen and hydrogen make at least seven binary compounds, the most wellknown being ammonia, NH3. Hydrazine, N2H4, is used as a fuel, and the salt hydrazinium azide (N2H5+N3-) also qualifies as a binary N/H compound. Two other azide compounds, hydrogen azide (HN3) and ammonium azide (NH4N3), are included on the list, which is rounded out by diimide (also called diazene), N2H2, and tetrazene, H2N-NdN-NH2. Diimide and tetrazene were most recently isolated. N2H2 had been proposed as a reaction intermediate in the reduction of olefinic and acetylenic bonds by Corey et al.2 Its infrared spectrum was first probed by Van Thiel and Pimentel et seq.3 in cryogenic matrices, and purportedly in solid form by Trombetti4 in 1971. Its first unequivocal isolation was in 1972, when Wiberg, Bachhuber, and Fischer5 thermally decomposed tosylhydrazide salts at low pressures (