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Title: | Structures of Some Mercury Compounds in Low Oxidation States |
Authors: | Tun, Zin |
Advisor: | Brown, I.D. |
Department: | Chemistry |
Keywords: | Chemistry;Chemistry |
Publication Date: | Oct-1984 |
Abstract: | <p>Structures of Hg compounds in fractional oxidation states lower than +1, Hg₃-δMF₆ (M = Sb, Nb, Ta), Hg₃MF₆ (M = Nb, Ta), Hg₄(Ta₂F₁₁)₂ and Hg₃(NbF₅)₂SO₄, were determined at room temperature and at lower temperatures using X ray and neutron diffraction. The Hg₃-δMF₆ compounds, isostructural with Hg₃-δAsF₆, contain infinite chains of Hg which are incommensurate and thus disorder with the MF₆ host lattice. A comparison between the structures showed that the differences observed in the parameters of the chain compounds are completely accounted for by the difference in anion size. The chain-host lattice incommensurability also results in disorder among the chains at room temperature but an ordering develops at lower temperatures. As in Hg₃-δAsF₆, short and long range order phases were observed in experiments with Hg₃-δSbF₆ and Hg₃-δTaF₆. The characteristics of the short range order phase are different in each compound indicating that the details of chain-chain interactions are not the same. Emery-Axe order parameter theory which predicts the development of long range order phase was tested for M = As, Sb, Ta but agreement was obtained only for Hg₃-δSbF₆.</p> <p>A structure consisting of hexagonal closed-packed layers of Hg atoms was proposed for the Hg₃MF₆ compounds. The unusual 2-dimensional Hg-Hg bonding of these compounds represents an intermediate stage between the elemental solid Hg and the Hg₃-δMF₆ compounds which form 3- and 1-dimensional Hg-Hg bonds respectively.</p> <p>The Hg₄(Ta₂F₁₁)₂ and Hg₃(NbF₅)₂SO₄ consists of finite polyatomic Hg ions. The former shows a tendency of cations to link into infinite zigzag chains, a feature also seen in Hg₄(AsF₆)₂, while the latter does not show such a tendency.</p> |
URI: | http://hdl.handle.net/11375/8074 |
Identifier: | opendissertations/3309 4325 1573049 |
Appears in Collections: | Open Access Dissertations and Theses |
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