Metal-thiolate chemistry: The structure of the first adamantane-type cation, [(μ-SPh)6(HgPPh3)4]2+

Vittal, Jagadese J.; Dean, Philip A. W.; Payne, Nicholas C.

doi:10.1139/v93-254

Cited by 7 publications

(4 citation statements)

References 16 publications

(24 reference statements)

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“…8 Such a variation is commonly found for terminal and bridging Hg-Br distances of thiolate-bridged compounds of Hg(II). 48 The Hg-Br-Hg bridge is symmetrical (3.073(11) Å), which is in contrast to the fact that unsymmetrical Hg-Br-Hg bridges are more frequently observed. 13, [49][50][51][52] The weak Hg-S br (between units) and normal Hg-Br br distances suggest that Br plays a more important role than S in holding the three different units together.…”

Section: Crystallographic Studiesmentioning

confidence: 95%

Structure-Directing Influence of Halide in Mercury Thiolate Clusters

et al. 2005

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Under identical conditions, the reaction of 2-aminoethanethiol hydrochloride with HgX(2) (X = Cl and Br) in water yielded discrete hexanuclear [Hg(6)Cl(8)(SCH(2)CH(2)NH(3))(8))]Cl(4).4H(2)O (1) and nonanuclear [Hg(9)Br(15)(SCH(2)CH(2)NH(3))(9)](Cl(0.8)Br(0.2))(3) (2) complexes with unusual coordination environments. Compound 1 crystallizes as triclinic with a = 9.434(2) Angstroms, b = 10.999(2) Angstroms, c = 13.675(7) Angstroms, alpha = 92.9(7) degrees, beta = 105.2(7) degrees, and gamma = 96.9(7) degrees, whereas 2 is monoclinic with a = 14.162(3) Angstroms, b = 8.009(16) Angstroms, c = 19.604(4) Angstroms, alpha = gamma = 90.0 degrees, and beta = 92.7(3) degrees. In both cases, it is observed that the halide creates the secondary structure around trinuclear units (dimer in 1 and trimer in 2) through Hg-X bonding. Two independent types of Hg atoms (four- and five-coordinate in 1) and (three- and four-coordinate in 2) are observed. The geometry around Hg is quite variable with bridging thiolate and both bridging and terminal halides. The angles around Hg associated with the S atoms are more obtuse than expected from mercury(II) thiolates with a coordination number of more than 2. Intermolecular hydrogen bonding involving NH(3)(+), water molecules, and the halide atoms is responsible for the three-dimensional network in both compounds. Relatively short Hg...Hg interactions in 1 (3.797 and 3.776 Angstroms) and in 2 (3.605 and 3.750 Angstroms) are also observed. The compounds have been characterized with the help of (1)H and (13)C NMR, UV-Vis, infrared, Raman, and mass spectrometry, thermogravimetric analysis, and single X-ray crystallography.

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Section: Crystallographic Studiesmentioning

confidence: 95%

Structure-Directing Influence of Halide in Mercury Thiolate Clusters

et al. 2005

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“…[233,234] A complex precursor [M(L)2(ClO4)2] (M = Cd, Hg; L = PPh3, PEt3, AsPh3) in combination with M(ER)2 (E = S, Se) and free L leads to cationic clusters in [(ML)4(ER)6][ClO4]2 (453-464, Figure 10). [235][236][237] With certain L and R combinations, this can lead to clusters with a few terminally uncoordinated M sites, which do not, however, influence the charge. [235] There are only two examples with oxygen in the E position.…”

Section: Chemical Science Accepted Manuscriptmentioning

confidence: 99%

“…[Hg(PPh3)2(ClO4)2], Hg(EPh)2, PPh3 / CHCl3, 10 min C [236,237] [(HgPPh3)4(SMe)6][ClO4]2 (457) [Hg(PPh3)2(ClO4)2], Hg(SMe)2, PPh3 / CHCl3, 10 min C [236] [(HgPPh3)4(SEt)6][ClO4]2 (458) [Hg(PPh3)2(ClO4)2], Hg(SEt)2, PPh3 / CH2Cl2, 10 min C [236] [(HgAsPh3)4(SPh)6][ClO4]2 (459) [Hg(AsPh3)2(ClO4)2], Hg(SPh)2, AsPh3 / CHCl3, 10 min C [236] [(HgPEt3)4(SPh)6][ClO4]2 (460) [Hg(PEt3)2(ClO4)2], Hg(SPh)2, PEt3 / Me2CO C [236] [(HgPEt3)4(SePh)6][ClO4]2 (461) [Hg(PEt3)2(ClO4)2], Hg(SePh)2, PEt3 / CHCl3, 10 min C [236] [Cd(CdPPh3)3(S n Pr)6][ClO4]2 (462) [Cd(PPh3)2(ClO4)2], Cd(S n Pr)2, PPh3 / CH2Cl2, 20 min C [235]…”

Section: Chemical Science Accepted Manuscriptmentioning

confidence: 99%

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Adamantane-type clusters: compounds with a ubiquitous architecture but a wide variety of compositions and unexpected materials properties

Rinn,

Rojas-León,

Peerless

et al. 2024

Chem. Sci.

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Neue Eisen-Quecksilber-Cluster: [Hg7{Fe(CO)4}5(StBu)3Cl], [Hg14Fe12{Fe(CO)4}6S6(StBu)8Br18] und [Hg39Fe8{Fe(CO)4}18S8(StBu)14Br28]

Fenske¹,

Bettenhausen²

1998

Angewandte Chemie

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Gleich drei neue Quecksilber‐Eisen‐Cluster mit 7, 14 und 39 Hg‐Zentren sind jetzt durch Reaktionen von tBuSSiMe3 mit [Fe(CO)4(HgX)2] (X = Cl, Br) erhalten worden. Die Verbindungen ließen sich in Form orangefarbener Kristalle isolieren und röntgenstrukturanalytisch charakterisieren. Das Bild rechts zeigt die Struktur des Schweratomgerüsts von [Hg14Fe12{Fe(CO)4}6S6(StBu)8Br18] (Hg, Fe, Br und S sind schwarz, schräg gestrichelt, weiß bzw. waagerecht gestrichelt wiedergegeben).

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Metal-thiolate chemistry: The structure of the first adamantane-type cation, [(μ-SPh)₆(HgPPh₃)₄]²⁺

Cited by 7 publications

References 16 publications

Structure-Directing Influence of Halide in Mercury Thiolate Clusters

Structure-Directing Influence of Halide in Mercury Thiolate Clusters

Adamantane-type clusters: compounds with a ubiquitous architecture but a wide variety of compositions and unexpected materials properties

Neue Eisen-Quecksilber-Cluster: [Hg7{Fe(CO)4}5(StBu)3Cl], [Hg14Fe12{Fe(CO)4}6S6(StBu)8Br18] und [Hg39Fe8{Fe(CO)4}18S8(StBu)14Br28]

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