Miro F. Y. Ng scite author profile

This article describes the structure determination of five homoleptic d(10) metal-aryl/alkylacetylides [RC triple bond CM] (M=Cu, R=tBu 1, nPr 2, Ph 3; R=Ph, M=Ag 4; Au 5) by using X-ray single-crystal and powder diffraction. Complex 1.C6H6 reveals an unusual Cu20 catenane cluster structure that has various types of tBuC triple bond C-->Cu coordination modes. By using this single-crystal structure as a starting model for subsequent Rietveld refinement of X-ray powder diffraction data, the structure of the powder synthesized from CuI and tBuC triple bond CH was found to have the same structure as 1. Complex 2 has an extended sheet structure consisting of discrete zig-zag Cu4 subunits connected through bridging nPrC triple bond C groups. Complex 3 forms an infinite chain structure with extended Cu-Cu ladders (Cu-Cu=2.49(4)-2.83(2) A). The silver(I) congener 4 is iso-structural to 3 (average Ag-Ag distance 3.11 A), whereas the gold(I) analogue 5 forms a Au...Au honeycomb network with PhC triple bond C pillars (Au-Au=2.98(1)-3.26(1) A). Solid-state properties including photoluminescence, nu(C triple bond C) stretching frequencies and thermal stability of these polymeric systems are discussed in the context of the determined structures.

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Cover Picture: Structure Determination of Homoleptic Au^I, Ag^I, and Cu^I Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction (Chem. Eur. J. 6/2005)

Chui

Che

2005

Chemistry A European J

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Polymeric structures are found for one of a series of homoleptic coordination polymers [(RCCM)n] (M=CuI, AgI, and AuI) that have been structurally characterized. The paper by C.‐M. Che et al. on page 1739 ff. describes the characterization by means of X‐ray powder diffraction measurements of several such complexes. Solid‐state properties including photoluminescence, ν(CC) stretching frequencies and thermal stability of these polymeric systems are discussed in the context of the determined structures. The picture shows the structure and diffraction data for the polymer chain [(PhCCCu)∞].

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Miro F. Y. Ng

Structure Determination of Homoleptic Au^I, Ag^I, and Cu^I Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction

Cover Picture: Structure Determination of Homoleptic Au^I, Ag^I, and Cu^I Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction (Chem. Eur. J. 6/2005)

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Miro F. Y. Ng

Structure Determination of Homoleptic AuI, AgI, and CuI Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction

Cover Picture: Structure Determination of Homoleptic AuI, AgI, and CuI Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction (Chem. Eur. J. 6/2005)

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Structure Determination of Homoleptic Au^I, Ag^I, and Cu^I Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction

Cover Picture: Structure Determination of Homoleptic Au^I, Ag^I, and Cu^I Aryl/Alkylethynyl Coordination Polymers by X‐ray Powder Diffraction (Chem. Eur. J. 6/2005)