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Influence of the Ligand Alkyl Chain Length on the Solubility, Aqueous Speciation, and Kinetics of Substitution Reactions of Water- Soluble M3S4 (M = Mo, W) Clusters Bearing Hydroxyalkyl Diphosphines

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URI: http://hdl.handle.net/10498/20484

DOI: 10.1021/ic400897y

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2013-Influence of the Ligand Alkyl Chain Length on the Solubility, Aqueous Speciation, and Kinetics of Substitution Reactions of Water-Soluble M3S4.pdf (944.6Kb)
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F. Beltrán, Tomás; Llusar, Rosa; Sokolov, Maxim; G. Basallote, Manuel; Fernández-Trujillo Rey, María JesúsAuthority UCA; García Basallote, ManuelAuthority UCA; Fernández-Trujillo Rey, María JesúsAuthority UCA; Pino Chamorro, Jose Ángel
Date
2013-07
Department
Ciencia de los Materiales e Ingeniería Metalúrgica y Química Inorgánica
Source
Inorganic Chemistry 2013, 52, 8713−8722
Abstract
Water-soluble [M3S4X3(dhbupe)3]+ diphosphino complexes (dhbupe = 1,2-bis(bis(hydroxybutyl)phosphino)ethane), 1+ (M = Mo, X = Cl) and 2+ (M = W; X = Br), have been synthesized by extending the procedure used for the preparation of their hydroxypropyl analogues by reaction of the M3S4(PPh3)3X4(solvent)x molecular clusters with the corresponding 1,2-bis- (bishydroxyalkyl)diphosphine. The solid state structure of the [M3S4X3(dhbupe)3]+ cation possesses a C3 symmetry with a cuboidal M3S4 unit, and the outer positions are occupied by one halogen and two phosphorus atoms of the diphosphine ligand. At a basic pH, the halide ligands are substituted by hydroxo groups to afford the corresponding [Mo3S4(OH)3(dhbupe)3]+ (1OH +) and [W3S4(OH)3(dhbupe)3]+ (2OH +) complexes. This behavior is similar to that found in 1,2-bis(bis(hydroxymethyl)phosphino)ethane (dhmpe) complexes and differs from that observed for 1,2-bis(bis(hydroxypropyl)phosphino)ethane (dhprpe) derivatives. In the latter case, an alkylhydroxo group of the functionalized diphosphine replaces the chlorine ligands to afford Mo3S4 complexes in which the deprotonated dhprpe acts in a tridentate fashion. Detailed studies based on stopped-flow, 31P{1H} NMR, and electrospray ionization mass spectrometry techniques have been carried out in order to understand the solution behavior and kinetics of interconversion between the different species formed in solution: 1 and 1OH + or 2 and 2OH +. On the basis of the kinetic results, a mechanism with two parallel reaction pathways involving water and OH− attacks is proposed for the formal substitution of halides by hydroxo ligands. On the other hand, reaction of the hydroxo clusters with HX acids occurs with protonation of the OH− ligands followed by substitution of coordinated water by X−.
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Attribution-NonCommercial-NoDerivatives 4.0 Internacional
This work is under a Creative Commons License Attribution-NonCommercial-NoDerivatives 4.0 Internacional

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