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Brian W. Skelton
Researcher at University of Western Australia
Publications - 1662
Citations - 33374
Brian W. Skelton is an academic researcher from University of Western Australia. The author has contributed to research in topics: Crystal structure & Ligand. The author has an hindex of 69, co-authored 1646 publications receiving 31889 citations. Previous affiliations of Brian W. Skelton include Monash University, Clayton campus & State University of Malang.
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Structural Systematics of Rare Earth Complexes. VII. Crystal Structure of Bis(2,2'/6',2␛-Terpyridinium) Octaaquaterbium(III) Heptachloride Hydrate
TL;DR: In this article, the structural characterization of the title compound (tpyH2)2[Tb(OH2)8]Cl7.~2⅓H2O is recorded.
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Preparation and Molecular Structures of FcC ≡ CI and {Co2(CO)6}2(µ:µ-FcC2C2Fc) [Fc = Ferrocenyl, (h-C5H4)Fe(h-C5H5)]
TL;DR: In this article, the deiodinative coupling of the iodoalkyne and subsequent addition of a Co2(CO)6 group to each C ≡ C triple bond in the resulting diyne was characterized by an X-ray structure determination.
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Synthesis of a Cis-N2s2 Donor Macrocycle by Metal-Directed Condensation of Formaldehyde, Nitroethane and a Diaminodithiaalkane - Crystal-Structure of the (6-Methyl-6-Nitro-1,11-Dithia-4,8-Diazacyclotetradecane)-Copper(II) Perchlorate Product
TL;DR: In this article, the reaction of (3,7dithianonane-1,9-diamine)copper(II) ion with nitroethane and formaldehyde in basic methanol gives the macrocyclic complex ion (6-methyl-6-nitro-1-II-dithia-4,8- diazacyclotetradecane )copper (II) in high yield.
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Phosphine-gold(I) derivatives of 1,1′-bis(alkynyl)metallocenes: Molecular structures of Fc’(CCX)2 [X = Au(PPh3), SiMe3] and Au4{(CC)2Fc’}2(PPh3)2 [Fc’ = Fe(η-C5H4-)2]
TL;DR: In this paper, the X-ray determined structure of 3 showed a planar centrosymmetric Au4 rhomb, two opposed Au atoms being σ-bonded to the C C group, while the other two Au atoms are each η 2-bunded to C C groups and a PPh3 ligand.
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Synthesis With Chelated Imino Carboxylates: The Influence of Chelate Coligands on Reaction Pathways
TL;DR: In this article, the authors used X-ray crystallography to explore the chemistry of chelates derived from the imines of pyruvic and phenylpyruvic acids held in a chiral environment.