Computational Study on N–N Homolytic Bond Dissociation Enthalpies of Hydrazine Derivatives

Abstract: The hydrazine derivatives have been regarded as the important building blocks in organic chemistry for the synthesis of organic N-containing compounds. It is important to understand the structure-activity relationship of the thermodynamics of N-N bonds, in particular, their strength as measured by using the homolytic bond dissociation enthalpies (BDEs). We calculated the N-N BDEs of 13 organonitrogen compounds by eight composite high-level ab initio methods including G3, G3B3, G4, G4MP2, CBS-QB3, ROCBS-QB3, CB… Show more

“…Another example is FOX‐7 [(H 2 N) 2 C=C(NO 2 ) 2 ] [20], whose high stability and insensitivity at least partly can be attributed to the resonance interaction between the amino and nitro groups. A similar but much stronger effect is observed in H 2 N−NO 2 , which has a N−N BDE of 267 kJ/mol compared to 50 kJ/mol in O 2 N−NO 2 [21]. Rather surprisingly, we found a very low N‐NO 2 BDE of 54 kJ/mol in N(NO 2 ) 2 NH 2 .…”

Improving the Stability of Trinitramide by Chemical Substitution: N(NF₂)₃ has Higher Stability and Excellent Propulsion Performance

“…Another example is FOX‐7 [(H 2 N) 2 C=C(NO 2 ) 2 ] [20], whose high stability and insensitivity at least partly can be attributed to the resonance interaction between the amino and nitro groups. A similar but much stronger effect is observed in H 2 N−NO 2 , which has a N−N BDE of 267 kJ/mol compared to 50 kJ/mol in O 2 N−NO 2 [21]. Rather surprisingly, we found a very low N‐NO 2 BDE of 54 kJ/mol in N(NO 2 ) 2 NH 2 .…”

Improving the Stability of Trinitramide by Chemical Substitution: N(NF₂)₃ has Higher Stability and Excellent Propulsion Performance

“…According to these mechanistic study results and literature reports, 12–16 we propose a tentative mechanism for this N 2 H 4 -mediated reductive amination (Fig. 5).…”

“…Then, subsequent reduction of 8 occurs, resulting in the final product primary amine 3 by reductive cleavage of the N–N bond in intermediate hydrazine 9 (verified by the reductive cleavage of 1,2-dibenzylhydrazine, see Scheme 1d). 15 Side product 6 was formed by self-condensation of 3 via intermediate imine 5 , 14 while deoxygenated by-product 7 was obtained via a Wolff–Kishner–Huang Minlon reduction. Ni/ meso -Al 2 O 3 -600 is critical for the activation of N 2 H 4 ·H 2 O to generate the active hydrogen species (Ni–[ H ]), 14,16 hydrogenating azine and hydrazone in this reaction.…”

A general and selective Ni-catalysed reductive amination using hydrazine hydrate as facile hydrogen and nitrogen sources

“…51,73 Even though the homogeneously catalysed disproportionation of hydrazine to ammonia and diazene has previously been reported in a few studies, [74][75][76] the mechanism of this transformation has yet to be studied in great detail. 60,68,77,78 We therefore sought to study the mechanism of the reaction between 1 Tol and hydrazine, both experimentally and theoretically. Two main mechanisms are postulated to explain the formation of 1 Tol -NH 3 and 4 Tol from hydrazine disproportionation mediated by 1 Tol .…”

Activation of ammonia and hydrazine by electron rich Fe(ii) complexes supported by a dianionic pentadentate ligand platform through a common terminal Fe(iii) amido intermediate