Two chromium(II) complexes with amidato-like ligands: a compound with the longest CrCr bond and a mononuclear compound with D2d symmetry

Cotton, F. Albert; Falvello, Larry R.; Schwotzer, Willi; Murillo, Carlos A.; Valle-­Bourrouet, Grettel

doi:10.1016/s0020-1693(00)80236-4

Cited by 31 publications

(9 citation statements)

References 17 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…[41]. The bond length and angles for the saccharinate ligand were similar to those reported for the [Cr2L2(μ-sac)4] complexes (L = THF, Py) [42,43]. In addition, 3•2THF represents a rare reported example of saccarinate-based lantern-like complexes with a core {M2(Sac)4}.…”

Section: X-ray Diffraction Studiessupporting

confidence: 75%

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

Toikka¹,

Spiridonova²,

Novikov³

et al. 2021

Inorganics

View full text Add to dashboard Cite

The reaction in the system CuII/sacNa(H)/NCNR2 (sacNa(H) = sodium saccharinate (saccharin); R = Me, Et) results in the formation of the complexes [Cu(sac)2(NCNR2)(H2O)2] (R = Me 1, Et 2) instead of the expected products derived from the saccharin–cyanamide coupling. Complexes 1, 2, and hydrate 1·2H2O were characterized by IR, AAS (Cu%), TGA, and also by single-crystal X-ray diffraction for 1 and 1·2H2O. An integrated computational study of model structure 1 in the gas phase demonstrates that the Cu–Ncyanamide and Cu–Nsac coordination bonds exhibited a single bond character, polarized toward the N atom and almost purely electrostatic, with the calculated vertical total energies for the Cu–Ncyanamide and Cu–Nsac of 43.6 and 156.4 kcal/mol, respectively. These data confirmed that the copper(II) completely blocks the nucleophilic centers of ligands via coordination, thus preventing the saccharin–cyanamide coupling.

show abstract

Section: X-ray Diffraction Studiessupporting

confidence: 75%

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

Toikka¹,

Spiridonova²,

Novikov³

et al. 2021

Inorganics

View full text Add to dashboard Cite

show abstract

“…Barbituric acids coordinate through one or both deprotonated N atoms and ketone O atoms. Most studies have concentrated on the ®rst-row transition metals (Caira et al, 1973;Nassimbeni & Rodgers, 1974;Cotton et al, 1991) and relatively few studies have concerned barbituric acid complexes of platinum-group metals (Sinn et al, 1978;Fawcett et al, 1996) or silver and gold (Bonati et al, 1986). We report here the crystal structure of a novel silver(I) complex with barbiturate and ethylenediamine ligands.…”

Section: Commentmentioning

confidence: 94%

catena-Poly[[μ-ethylenediamine-κ²N:N′-bis[(ethylenediamine-κ²N,N′)silver(I)] bis[silver(I)-μ-barbiturato-κ²N:N′]] dihydrate]

Liu

Zhu

2004

Acta Cryst E

View full text Add to dashboard Cite

The title compound, {[Ag2(C2H8N2)3][Ag2(C8H10N2O3)2]·2H2O}n, consists of one‐dimensional polymeric silver(I) complex anionic chains, discrete dinuclear silver(I) complex cations and solvent water molecules. In the anionic chain, each AgI atom is coordinated by two deprotonated N atoms from two barbiturate ligands in a perfectly linear geometry. In the dinuclear silver(I) complex cation, each AgI atom, in a Y‐shaped coordination environment, is coordinated by three N atoms from two ethylenediamine molecules. The bridging ethylenediamine ligand and the Ag atoms of the anionic chain lie on inversion centres.

show abstract

“…Frija co-exist simultaneously as ionic and coordinated species in the same structure. As a ligand, it can be engaged in N, O(C O) or O(SO 2 ) coordination, but can also act as a bidentate amidato-like bridging agent [21][22][23]. The saccharinate anion interacts with metal centres in various ways, generating relatively strong interactions in crystalline environments, mostly through hydrogen bonding.…”

Section: E-mail Address: Mcristi@ualgpt (Mls Cristiano)mentioning

confidence: 99%

Synthesis and structure of novel benzisothiazole-tetrazolyl derivatives for potential application as nitrogen ligands

Frija

Fausto

Loureiro

et al. 2009

Journal of Molecular Catalysis A: Chemical

View full text Add to dashboard Cite

show abstract

Two chromium(II) complexes with amidato-like ligands: a compound with the longest CrCr bond and a mononuclear compound with D2d symmetry

Cited by 31 publications

References 17 publications

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

catena-Poly[[μ-ethylenediamine-κ²N:N′-bis[(ethylenediamine-κ²N,N′)silver(I)] bis[silver(I)-μ-barbiturato-κ²N:N′]] dihydrate]

Synthesis and structure of novel benzisothiazole-tetrazolyl derivatives for potential application as nitrogen ligands

Contact Info

Product

Resources

About

Two chromium(II) complexes with amidato-like ligands: a compound with the longest CrCr bond and a mononuclear compound with D2d symmetry

Cited by 31 publications

References 17 publications

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

Copper(II) Prevents the Saccarine-Dialkylcyanamide Coupling by Forming Mononuclear (Saccharinate)(Dialkylcyanamide)copper(II) Complexes

catena-Poly[[μ-ethylenediamine-κ2N:N′-bis[(ethylenediamine-κ2N,N′)silver(I)] bis[silver(I)-μ-barbiturato-κ2N:N′]] dihydrate]

Synthesis and structure of novel benzisothiazole-tetrazolyl derivatives for potential application as nitrogen ligands

Contact Info

Product

Resources

About

catena-Poly[[μ-ethylenediamine-κ²N:N′-bis[(ethylenediamine-κ²N,N′)silver(I)] bis[silver(I)-μ-barbiturato-κ²N:N′]] dihydrate]