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Oxidizing Elemental Platinum with Oleum under Harsh Conditions: The Unique Tris(disulfato)platinate(IV) [Pt(S2O7)3]2− Anion 下载免费PDF全文
Jörn Bruns Prof. Dr. Thorsten Klüner Prof. Dr. Mathias S. Wickleder 《Chemistry (Weinheim an der Bergstrasse, Germany)》2014,20(24):7222-7227
For the first time, direct oxidation of elemental platinum by a mineral acid to its tetravalent state was observed in course of the reaction of platinum with oleum (65 % SO3) in the presence of barium carbonate. The reaction has been carried out in torch‐sealed glass ampoules at 160 °C and gave yellow single crystals of Ba[Pt(S2O7)3](H2SO4)0.5(H2S2O7)0.5 (triclinic, P$\bar 1$ , Z=2, a=992.05(2), b=1069.07(3), c=1114.22(3) pm, α=69.49(7), β=72.96(2), γ=72.93(1)°, V=1033.95(5) Å3). The structure of Ba[Pt(S2O7)3](H2SO4)0.5(H2S2O7)0.5 exhibits the unique tris‐(disulfato)‐platinate anion [Pt(S2O7)3]2? with three chelating disulfate groups coordinated to the platinum atom. Charge balance is achieved by the Ba2+ ions, which are coordinated by (S2O7)2? groups from the platinate complex and by disordered sulfuric acids and disulfuric acid molecules. Thermal decomposition of the bulk material revealed elemental platinum and barium sulfate as decomposition residual. 相似文献
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Dipl.‐Chem. Lisa Verena Schindler B. Sc. Anna Becker M. Sc. Maria Wieckhusen Prof. Dr. Thorsten Klüner Prof. Dr. Mathias S. Wickleder 《Angewandte Chemie (International ed. in English)》2016,55(52):16165-16167
The S6O192? ion was obtained both as rubidium and ammonium salt from the reaction of the respective sulfate with SO3. It is the largest polysulfate ion known to date and exhibits a chain of six vertex‐connected [SO4] tetrahedra. The unique compound was comprehensively characterized and the bonding within the anion was elucidated by theoretical investigations. 相似文献
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Logemann C Klüner T Wickleder MS 《Angewandte Chemie (International ed. in English)》2012,51(20):4997-5000
Sulfates united: the unique tetrasulfate S(4)O(13)(2-) anion was observed in the structure of (NO(2))(2)[S(4)O(13)] that forms in the reaction of N(2)O(5) with SO(3). Theoretical investigations show that the anion is a stable member of the polysulfate series [S(n)O(3n+1)](2-), which was investigated up to n=11. 相似文献
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