Nitrogen–Carbon Bond Formation from N 2 and CO 2 Promoted by a Hafnocene Dinitrogen Complex Yields a Substituted Hydrazine Wesley H. Bernskoetter, Emil.

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Presentation transcript:

Nitrogen–Carbon Bond Formation from N 2 and CO 2 Promoted by a Hafnocene Dinitrogen Complex Yields a Substituted Hydrazine Wesley H. Bernskoetter, Emil Lobkovsky, and Paul J. Chirik* Angew. Chem. Int. Ed. 2006, 45, 1-5

Chem. Commun. 2003, 2050 Carbon-Nitrogen Bond Formation

The Synthesis of Ammonia: Haber-Bosch Process

Dinitrogen Hydrogenation J. Am. Chem. Soc. 2004, 126,

J. Am. Chem. Soc. 2005, 127, 7901

Organometallics 2006, 25, Preparation of 1-N 2

J. Am. Chem. Soc. 2006, 128, 10696

13 C NMR:δ (d, 14.6Hz, 15 NCO 2 ) 15 N NMR: δ184.0 (d, 13.1Hz), (d, 13.1Hz).

The N1–N2 bond length of 1.471(7) Å C37–O1 and C38–O3 : 1.323(7) and 1.303(8) Å C37–O2 and C38–O4 : 1.208(8) and 1.228(8) Å bond orderd(N-N)/A (N 2 ) (N 2 Me 2 ) (N 2 H 4 )

30% 15% 13 C and 15 N NMR resonances centered at δ=165.9 and 309 ppm 13 C NMR resonances centered at δ=167.3 ppm

1 H NMR:δ 0.44 ppm (SiMe 3 ) 29 Si NMR:δ ppm

The 1 H NMR spectrum of 2 exhibits two singlets at δ=0.24 ppm and 0.39 ppm and the 29 Si NMR spectrum reveals resonances at δ=6.16 and ppm.

Conclutions Functionalization of a side-on bound hafnocene dinitrogen complex with carbon dioxide has been accomplished. Elaboration of the core of the molecule was accomplished by treatment with Me 3 SiI, resulting in the synthesis of a dicarboxylated silylated hydrazine directly from N 2 and CO 2.

Mechanism