Vanadium Complexes of the N(CH₂CH₂S)₃^3-and O(CH₂CH₂S)₂^2-Ligands with Coligands Relevant to Nitrogen Fixation Processes

Abstract: Vanadium(III) and vanadium(V) complexes derived from the tris(2-thiolatoethyl)amine ligand [(NS3)3-] and the bis(2-thiolatoethyl)ether ligand [(OS2)2-] have been synthesized with the aim of investigating the potential of these vanadium sites to bind dinitrogen and activate its reduction. Evidence is presented for the transient existence of (V(NS3)(N2)V(NS3), and a series of mononuclear complexes containing hydrazine, hydrazide, imide, ammine, organic cyanide, and isocyanide ligands has been prepared and the ch… Show more

“…[38Ϫ46] The bond lengths between the vanadium centre and the three ligand functions also compare to those of the vanadium-ONS complex [V(nap-amtph) 2 ], where nap-amtph is the Schiff base formed between o-hydroxynaphthaldehyde and o-aminothiophenol, [47] and to [50] On the other hand, VϪS bonds in V V complexes containing the tetrafunctional trithiolate N(CH 2 CH 2 S Ϫ ) 3 are still shorter (averaging around 2.25 Å [29,30] ) than in the aforementioned complexes with ONS donor sets. The VϪCl bond in 3a [2.341(1) Å ] again compares to that in other chlorovanadium complexes.…”

Vanadium(IV and V) Complexes ContainingSNO (Dithiocarbonylhydrazone; Thiosemicarbazone) Donor Sets

“…[38Ϫ46] The bond lengths between the vanadium centre and the three ligand functions also compare to those of the vanadium-ONS complex [V(nap-amtph) 2 ], where nap-amtph is the Schiff base formed between o-hydroxynaphthaldehyde and o-aminothiophenol, [47] and to [50] On the other hand, VϪS bonds in V V complexes containing the tetrafunctional trithiolate N(CH 2 CH 2 S Ϫ ) 3 are still shorter (averaging around 2.25 Å [29,30] ) than in the aforementioned complexes with ONS donor sets. The VϪCl bond in 3a [2.341(1) Å ] again compares to that in other chlorovanadium complexes.…”

Vanadium(IV and V) Complexes ContainingSNO (Dithiocarbonylhydrazone; Thiosemicarbazone) Donor Sets

“…In view of the reported inability of the VNS3 [S3 ¼ ðSCH 2 CH 2 Þ 3À 3 ] complex to convert hydrazine to ammonia [16], we have decided to carry out similar calculation for this system as well. The geometrical parameters obtained for both the vanadium systems mediated intermediates follow almost a similar trend (Figs.…”

“…So far, limited synthetic models are known that catalyze the conversion of N 2 H 4 to NH 3 , the late stage of ammonia synthesis [9][10][11][12][13][14][15]. Davies and coworkers reported vanadium complexes of the NðCH 2 CH 2 SÞ 3À 3 and OðCH 2 CH 2 SÞ 2À 2 ligands [16]. They successfully isolated the V(NS3)N 2 H 4 adduct but none of these complexes catalyze the reduction of N 2 H 4 to NH 3 .…”

Theoretical study on the mechanism of catalytic reduction of hydrazine to ammonia mediated by vanadium (III) thiolate complexes

“…Similarly, limited examples of catalytic hydrazine reduction have been reported despite its much weaker N-N single bond (38 kcal/mol vs. 226 kcal/mol). [28][29][30][31][32][33][34][35][36][37][38][39][40] Most of these examples utilize the metals found in the Nase active site, iron, molybdenum, and vanadium. Early systems developed were based primarily on molybdenum, following Schrock's 1991 report of a molybdenum-pentamethylcyclopentadienyl (Cp*) catalyst (Scheme 2).…”

“…34,35 Although not catalytic, similar vanadium complexes developed by the Sanders group featuring a tris(thiolato)amine ligand are also capable of hydrazine reduction to ammonia. 36,37 It is important to note the structural analogy of these thiolate-ligated complexes to the Nase active site, in addition to being functional mimics.…”

First Row Transition Metal Mediated Redox Reactions of Hydrazines and Isonitriles