Detlef Viets scite author profile

Detlef Viets

3Publications

34Citation Statements Received

53Citation Statements Given

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Affiliations

University of Bremen, Edwards Air Force Base, University of Southern California

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Structure of the SO₂F^- Anion, a Problem Case¹

et al. 2001

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Recently, room-temperature crystal structures of SO2F- in its K+ and Rb+ salts were published in Z. Anorg. Allg. Chem. 1999, 625, 385 and claimed to represent the first reliable geometries for SO2F-. However, their almost identical S−O and S−F bond lengths and O−S−O and O−S−F bond angles are in sharp contrast to the results from theoretical calculations. To clarify this discrepancy, the new [(CH3)2N]3SO+ and the known [N(CH3)4 +], [(CH3)2N]3S+, and K+ salts of SO2F- were prepared and their crystal structures studied at low temperatures. Furthermore, the results from previous RHF and MP2 calculations were confirmed at the RHF, B3LYP, and CCSD(T) levels of theory using different basis sets. It is shown that all the SO2F- salts studied so far exhibit varying degrees of oxygen/fluorine and, in some cases, oxygen-site disorders, with [(CH3)2N]3SO+SO2F- at 113 K showing the least disorder with r(S−F) − r(S−O) = 17 pm and ∠(O−S−O) − ∠(F−S−O) = 6°. Refinement of the disorder occupancy factors and extrapolation of the observed bond distances for zero disorder resulted in a geometry very close to that predicted by theory. The correctness of the theoretical predictions for SO2F- is further supported by the good agreement between the calculated and the experimentally observed vibrational frequencies and their comparison with those of isoelectronic ClO2F. A normal coordinate analysis of SO2F- confirms the weakness of the S−F bond with a stretching force constant of only 1.63 mdyn/Å and shows that there is no highly characteristic S−F stretching mode. The S−F stretch strongly couples with the SO2 deformation modes and is concentrated in the two lowest a‘ frequencies.

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[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻: Synthesis, Structure, and Reactivity

Viets¹,

Lork²,

Watson³

et al. 1997

Angew. Chem. Int. Ed. Engl.

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3] The inner reorganization energy is the amount of energy needed for the reorganization of all intramolecular coordinates during the ET process according to Marcus theory [4] S. F. Nelsen. J Adamus. [6] This rollows t'rom detailed cyclovoltammetric measurements on 3: B. Speiser, R Mayer. M Wurde, Universitit Tubingen, private communication; M. Wurde. Diplimu Tho.si.s. Universitit Tubingen, 1996. For the oxidation of 3, see also R U: Johnson.

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[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻ – Synthese, Struktur und Reaktivität

et al. 1997

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Detlef Viets

Structure of the SO₂F^- Anion, a Problem Case¹

[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻: Synthesis, Structure, and Reactivity

[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻ – Synthese, Struktur und Reaktivität

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Detlef Viets

Structure of the SO2F- Anion, a Problem Case1

[(CF3)2Hg(μ‐F)2Hg(CF3)2]2−: Synthesis, Structure, and Reactivity

[(CF3)2Hg(μ‐F)2Hg(CF3)2]2− – Synthese, Struktur und Reaktivität

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Structure of the SO₂F^- Anion, a Problem Case¹

[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻: Synthesis, Structure, and Reactivity

[(CF₃)₂Hg(μ‐F)₂Hg(CF₃)₂]²⁻ – Synthese, Struktur und Reaktivität