1973
DOI: 10.1139/v73-237
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Isotopic Studies of the Metal–Ligand Bond. Part III. The Far Infrared Spectra of Some Tetragonal Diamine Complexes of Cobalt(II) and Nickel(II): Studies of the Metal–Nitrogen Bond, as a Function of Metal Ion and of Spin State

Abstract: The far infrared spectra of 35 complexes of the formula M(diamine),X, are reported where M = Co(I1) and Ni(II), X = C1-, Br-, I-, NO3-, SCN-, C104-, and AgIZ-and the diamine is ethylenediamine or its N,N-symmetric or antisymmetrically substituted dimethyl or diethyl derivative. Isotopic substitution studies with 62Ni and with are carried out with eleven characteristic complexes and assignments for the metal-nitrogen modes in both octahedral and square planar complexes so deduced. In most cases the appropriate … Show more

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Cited by 37 publications
(6 citation statements)
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“…[34] The far infrared region includes vibrations arising from coordination of the metal to the ligand. In far-IR ( Figures 13S-15S), it can be seen the appearance of the absorption bands characteristic for the new created metal-ligand bonds at 370 and 397 cm −1 (Cu-N), 384 and 417 cm −1 (Co-N) and 384 and 424 cm −1 (Zn-N) [31,[34][35][36] (Figure 12Sd). These observations support the hypothesis that metal ions are complexed through both nitrogen atom types from azomethine group and oxadiazole ring.…”
Section: Complexationmentioning
confidence: 99%
“…[34] The far infrared region includes vibrations arising from coordination of the metal to the ligand. In far-IR ( Figures 13S-15S), it can be seen the appearance of the absorption bands characteristic for the new created metal-ligand bonds at 370 and 397 cm −1 (Cu-N), 384 and 417 cm −1 (Co-N) and 384 and 424 cm −1 (Zn-N) [31,[34][35][36] (Figure 12Sd). These observations support the hypothesis that metal ions are complexed through both nitrogen atom types from azomethine group and oxadiazole ring.…”
Section: Complexationmentioning
confidence: 99%
“…Moreover, the bands appeared in the similar areas in both imprinted and non‐imprinted sorbent ascribing to the fact that the polymeric structure is same in both the cases and that the incorporation of Ni(II) brings no change to the polymer backbone. The successful incorporation of Ni(II) can also be seen in the FIR spectra of APS@Ni‐IIP, which shows a defined band at 550 cm −1 corresponding to the Ni−N bond [15] and a peak at 639 cm −1 corelating to the Ni−O bond, [16,17] these peaks are completely absent in the spectra of leached polymer, evidencing the complete elution of Ni(II).…”
Section: Resultsmentioning
confidence: 84%
“…In the far‐IR region, the characteristic vibrations for the newly created MN coordination bonds can be seen at 424 and 370 cm −1 (CuN), 413 cm −1 (CoN), and 384 and 417 cm −1 (ZnN) (Figure 6S, Supporting Information). In addition, those assigned to MCl (330 and 243 cm −1 for PAZ2–Cu, 326 and 303 cm −1 for PAZ2–Co, and 332 cm −1 for PAZ2–Zn; Figure 8S, Supporting Information) were observed.…”
Section: Resultsmentioning
confidence: 99%