MULTIPLE BONDS BETWEEN MAIN-GROUP ELEMENTS AND TRANSITION-METALS .137. POLYMERIC METHYLTRIOXORHENIUM - AN ORGANOMETALLIC NANOSCALE DOUBLE-LAYER STRUCTURE OF CORNER-SHARING REO5(CH3) OCTAHEDRA WITH INTERCALATED WATER-MOLECULES - Forschungsportal der Justus-Liebig-Universität Gießen:

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MULTIPLE BONDS BETWEEN MAIN-GROUP ELEMENTS AND TRANSITION-METALS .137. POLYMERIC METHYLTRIOXORHENIUM - AN ORGANOMETALLIC NANOSCALE DOUBLE-LAYER STRUCTURE OF CORNER-SHARING REO5(CH3) OCTAHEDRA WITH INTERCALATED WATER-MOLECULES

Autorenliste: HERRMANN, WA; SCHERER, W; FISCHER, RW; BLUMEL, J; KLEINE, M; MERTIN, W; GRUEHN, R; MINK, J; BOYSEN, H; WILSON, CC; IBBERSON, RM; BACHMANN, L; MATTNER, M

Jahr der Veröffentlichung: 1995

Seiten: 3231-3243

Zeitschrift: Journal of the American Chemical Society

Bandnummer: 117

Heftnummer: 11

ISSN: 0002-7863

DOI Link: https://doi.org/10.1021/ja00116a027

Verlag: American Chemical Society

Abstract:
A two-dimensional structural model of polymeric methyltrioxorhenium (MTO) has been established by means of diffraction techniques and a variety of analytical methods. The unusual compound, constituting the first example of a polymeric organometallic oxide, has a layer structure of methyl-deficient, comer-sharing ReO5(CH3) octahedra. It adopts the three-dimensional extended ReO3 motif in two dimensions as a {ReO2}infinity network. Adjacent layers of corner-sharing ReO5(CH3) octahedra (A) are capable of forming staggered double layers (AA'). In the crystalline areas of ''poly-MTO'', such double layers are separated by intercalated water molecules (monolayer) (B) with an ...AA'BAA'... layer sequence. For the partially amorphous areas of ''poly-MTO'', we propose a turbostratic and 00l-defect stacking model for the ''poly-MTO'' and water layers. Interactions between the adjacent layers in this polymeric MTO are very weak, resulting in graphite-like macroscopic properties such as flaky appearance, softness, and lubricity. High electric conductivity results from understoichiometry with respect to the CH3/Re ratio (9.2/10) and partial reduction by extra hydrogen equivalents. For the purpose of comparison, the solid-state structure of ''monomeric'' MTO as established by a combination of X-ray and powder neutron diffraction techniques is also reported.

Zitierstile

Harvard-Zitierstil: HERRMANN, W., SCHERER, W., FISCHER, R., BLUMEL, J., KLEINE, M., MERTIN, W., et al. (1995) MULTIPLE BONDS BETWEEN MAIN-GROUP ELEMENTS AND TRANSITION-METALS .137. POLYMERIC METHYLTRIOXORHENIUM - AN ORGANOMETALLIC NANOSCALE DOUBLE-LAYER STRUCTURE OF CORNER-SHARING REO5(CH3) OCTAHEDRA WITH INTERCALATED WATER-MOLECULES, Journal of the American Chemical Society, 117(11), pp. 3231-3243. https://doi.org/10.1021/ja00116a027

APA-Zitierstil: HERRMANN, W., SCHERER, W., FISCHER, R., BLUMEL, J., KLEINE, M., MERTIN, W., GRUEHN, R., MINK, J., BOYSEN, H., WILSON, C., IBBERSON, R., BACHMANN, L., & MATTNER, M. (1995). MULTIPLE BONDS BETWEEN MAIN-GROUP ELEMENTS AND TRANSITION-METALS .137. POLYMERIC METHYLTRIOXORHENIUM - AN ORGANOMETALLIC NANOSCALE DOUBLE-LAYER STRUCTURE OF CORNER-SHARING REO5(CH3) OCTAHEDRA WITH INTERCALATED WATER-MOLECULES. Journal of the American Chemical Society. 117(11), 3231-3243. https://doi.org/10.1021/ja00116a027

Zitierstile

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