Die Schwingungsspektren von Metalldithiobenzoaten

Abstract: Die IR‐ und RAMAN‐Spektren von Metalldithiobenzoaten (M = KI, TlI, PbII, CdII, HgII und InIII) wurden registriert und mit Hilfe von Modellberechnungen zugeordnet. Die A1‐Schwingungen der Dithiocarboxylatgruppe (νCCS2, νs CS2 und δ CS2) sind mit gleichrassigen Schwingungen des Phenylrings stark gekoppelt. νas CS2 liegt bei 980–1020 cm−1.

“…50,53 The remaining 9 vibrational modes (calculated) arise from the CS 3 + ring. The calculated vibrational frequencies and intensities for PhCS 2using the same method as that for 1 agree reasonably well with the previously reported 51,52 values and assignments for KPhCS 2 and In(PhCS 2 ) 3 (Table 1) with a few revisions based on the calculated results. There is also good agreement with the calculated and experimental results for the phenyl group vibrations of 1.…”

“…Therefore the peaks observed in 19 F are mainly due to 1SbF6. The SbF6in 2(SbF6)2 and 12(SbF6)2 or 13(SbF6)2 probably gave the same pattern at the same chemical shift as that of the SbF6in 1SbF6since the overall shapes of the peaks are very similar to those due to the SbF6 are very similar to the corresponding vibrational bands observed for monosubstituent phenyl rings in Ph-X (X ) F, Cl, Br, I, CH 3 ), 50 KPhCS 2 , 51,52 and In(PhCS 2 ) 3 51,52 (Table 1) except for the substituent-sensitive modes (ω 6 , ω 10 , ω 11, ω 24 , ω 29 , ω 30 ). 50,53 The remaining 9 vibrational modes (calculated) arise from the CS 3 + ring.…”

“…54,55 We note that the C-H vibrations for solid-state KPhCS 2 and In(PhCS 2 ) 3 were also not reported in either IR and Raman spectra. 52 The weak Raman peak at 483 cm -1 is assigned to the CS 3 ring deformation. The medium strong peak at 534 cm -1 (calcd: 515 cm -1 ) in the FT-Raman spectrum of 1SbF 6 is assigned to the superimposition of the symmetric CS 3 ring breathing (involving the symmetric υ(SSS) stretch) and asymmetric υ(SSS) stretching modes since the calculated vibrational frequencies for these two modes have identical values.…”

Syntheses and Characterization of the MF₆^-(M = As, Sb) Salts of the Simple Trithietanylium PhCS₃⁺Cation and the Identity of PhCS₃Cl

“…50,53 The remaining 9 vibrational modes (calculated) arise from the CS 3 + ring. The calculated vibrational frequencies and intensities for PhCS 2using the same method as that for 1 agree reasonably well with the previously reported 51,52 values and assignments for KPhCS 2 and In(PhCS 2 ) 3 (Table 1) with a few revisions based on the calculated results. There is also good agreement with the calculated and experimental results for the phenyl group vibrations of 1.…”

“…Therefore the peaks observed in 19 F are mainly due to 1SbF6. The SbF6in 2(SbF6)2 and 12(SbF6)2 or 13(SbF6)2 probably gave the same pattern at the same chemical shift as that of the SbF6in 1SbF6since the overall shapes of the peaks are very similar to those due to the SbF6 are very similar to the corresponding vibrational bands observed for monosubstituent phenyl rings in Ph-X (X ) F, Cl, Br, I, CH 3 ), 50 KPhCS 2 , 51,52 and In(PhCS 2 ) 3 51,52 (Table 1) except for the substituent-sensitive modes (ω 6 , ω 10 , ω 11, ω 24 , ω 29 , ω 30 ). 50,53 The remaining 9 vibrational modes (calculated) arise from the CS 3 + ring.…”

“…54,55 We note that the C-H vibrations for solid-state KPhCS 2 and In(PhCS 2 ) 3 were also not reported in either IR and Raman spectra. 52 The weak Raman peak at 483 cm -1 is assigned to the CS 3 ring deformation. The medium strong peak at 534 cm -1 (calcd: 515 cm -1 ) in the FT-Raman spectrum of 1SbF 6 is assigned to the superimposition of the symmetric CS 3 ring breathing (involving the symmetric υ(SSS) stretch) and asymmetric υ(SSS) stretching modes since the calculated vibrational frequencies for these two modes have identical values.…”

Syntheses and Characterization of the MF₆^-(M = As, Sb) Salts of the Simple Trithietanylium PhCS₃⁺Cation and the Identity of PhCS₃Cl

“…Sie gehen a d Schwinp g e n unter Beteiligung der C-C-C-Gruppierung des Chelatringes zuriick. Die vas (C.=C) wird wegen des fehlenden Wasserstoffatoms am zentralen Kohlenstoffatom und der deshalb ausbleibenden Das IR-Spektrum zeigt im Vergleich zu VIII eine intensive neue Bande bei 982 cm-l, wie sie fur die vae (CS,-) charakteristisch ist [21]. Die Kopplung der CS,-Gruppe mit anderen Frequenzen scheint gering zu sein, denn es mird nur eine weitere neue Bande bei 1120 cm-1, aber keine signifikante Verschiebung anderer Banden im Bereich von 800 bis 1050 cm-1 gefunden.…”

Zur Reaktion von stickstoffhaltigen Thallium(I)‐Chelaten mit Schwefelkohlenstoff

“…Nachgewiesen wurden diese Kopplungen z. B. zwischen v (C-CS,) vs (CS,) und 6 (CS,) und den gleichrassigen Schwingungen des Phenylrings bei Dithiobenzoaten [24].…”

Darstellung und Eigenschaften einiger Molybdän(II)‐Thiocarboxylate