Immobilisation of the polyoxometallate cluster, K6NaH[Sb2W20Fe2O70(H2O)6]·29H2O, in a polypyrrole film

Foster, Kevin; Bi, Lihua; McCormac, Timothy

doi:10.1016/j.electacta.2008.03.058

Cited by 11 publications

(10 citation statements)

References 49 publications

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“…The first wave is a one-electron process, assigned to the Ru 3+/2+ couple; the second and third waves are also oneelectron processes, assigned to the Fe 3+/2+ couples, whereas the latter two waves are multi-electron processes attributed to the redox reaction of the tungsten-oxo framework for [18,37] However, the voltammogram of 4a displays four redox waves at +1.11, 0.33, 0.14, and -0.35 V, as shown in Figure 8. The first three redox waves are essentially identical with those of 3a, and the fourth wave is a multi-electron process assigned to the redox reaction of the tungsten-oxo framework for tungstobismuthate (see Supporting Information, Figure S12).…”

Section: Electrochemistrymentioning

confidence: 99%

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Hou

Bao

et al. 2009

Eur J Inorg Chem

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Section: Electrochemistrymentioning

confidence: 99%

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Hou

Bao

et al. 2009

Eur J Inorg Chem

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“…In this case, the influence of the alkali cations seems to be critical during the synthesis and self-assembly of the nanoclusters. The critical influence of cations on the nanocluster synthesis has been demonstrated both experimentally [18][19][20][21][22][23] and theoretically. 24 One of the mostdeveloped members of these host-guest materials is the uranylperoxide cluster.…”

Section: Introductionmentioning

confidence: 99%

Exploring the electronic properties and cation complexation of polyoxoaurates [Au^III₄X₄O_m]ⁿ⁻(X = Si^IV, P^V, Ge^IV, As^V, and Se^IV) using quantum chemical calculations

Yan

et al. 2015

Phys. Chem. Chem. Phys.

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Quantum chemical calculations were performed to explore the structural and electronic properties of the two polyoxoaurates, [Au(III)4As(V)4O20](8-) (Au4As4) and [Au(III)4Se(IV)4O16](4-) (Au4Se4), known to date, and a number of hypothetical polyoxoaurate derivatives comprising heteroatoms different from arsenic and selenium (namely, Si, Ge and P). In addition, the interactions of [Au(III)4X4Om](n-) (X = As, Se) with alkali-metal cations (Li(+), Na(+), K(+) and Rb(+)) are also analysed. The studies suggest that the geometry structure, electronic properties and nucleophilicity of oxygen atoms of these polyoxoaurates are tuned by the size or electronegativity of the heteroatoms (Si, Ge, P, As and Se). Then, the geometry of [Au(III)4X4Om](n-) (X = As and Se) coordinating with alkali cations from Li(+) to Rb(+) and the complexation energy between [Au(III)4X4Om](n-) and alkali cations were compared. The results show that the stability and electronic structure of heteropolyoxoaurates depend on the entrapped cations. On the basis of the complexation energy, it can be concluded that the ion-pairing effect in arsenate-capped oxoaurate is stronger than that in selenite-capped oxoaurate. These heteropolyoxoaurates are expected to play a role in aqueous behaviour, self-assembly characteristics of polyoxoaurates, ion recognition, selectivity studies and may exhibit potential guest-switchable redox properties.

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“…Besides their manifold properties, conducting organic polymers are able to provide some electrocatalytic reactivity, and therefore, synergistic effects can be anticipated from such hybrids [6,7]. Several methods have been adopted to fabricate such hybrid electrochemical interfaces: Layer-by-layer assembly [8][9][10][11][12][13], electrochemical co-deposition [14], carbon paste [15] and casting [16], wherein polyaniline [6,[16][17][18], polypyrrole [7,19,20], poly(N-methylpyrrole) [21], poly(3-methylthiophene) [17,22], poly(amidoamine) [8], poly (3,4-ethylenedioxythiophene) [23][24][25][26] etc. were employed as organic conducting polymer backbones.…”

Section: Introductionmentioning

confidence: 99%

Ultrasound-Assisted Synthesis of Hybrid Phosphomolybdate–Polybenzidine Containing Silver Nanoparticles for Electrocatalytic Detection of Chlorate, Bromate and Iodate Ions in Aqueous Solutions

et al. 2011

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Herein, we report a hybrid electroactive material composed of silver nanoparticle-embedded polybenzidine matrix containing phosphomolybdic acid as the active inorganic component by an ultrasound-assisted method for the electrochemical detection of chlorate, bromate and iodate ions in aqueous solutions. The prepared hybrid material was characterised for its physicochemical properties: X-ray diffraction and transmission electron microscopy analyses provided evidence for the presence of silver nanoparticles (∼12 nm) in the hybrid material. The synthesized hybrid material was successfully fabricated on a glassy carbon electrode, and cyclic voltammetry was used to probe its electrochemical properties in 1 M H 2 SO 4 solution. Amperometry was employed in order to find out the detection limits of chlorate, bromate and iodate ions in aqueous solutions. This hybrid electrochemical interface showed the lowest detection limits of 86.3 nM, 1.45 μM and 1.66 μM for bromate, iodate and chlorate, respectively. Phosphomolybdate anion (PMo12) present in the hybrid material acted as both effective mediator and the source of mobile protons at the electrochemical interface. Silver nanoparticles present in the hybrid material further influenced the electroactivity of the modified electrode.

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Immobilisation of the polyoxometallate cluster, K6NaH[Sb2W20Fe2O70(H2O)6]·29H2O, in a polypyrrole film

Cited by 11 publications

References 49 publications

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Exploring the electronic properties and cation complexation of polyoxoaurates [Au^III₄X₄O_m]ⁿ⁻(X = Si^IV, P^V, Ge^IV, As^V, and Se^IV) using quantum chemical calculations

Ultrasound-Assisted Synthesis of Hybrid Phosphomolybdate–Polybenzidine Containing Silver Nanoparticles for Electrocatalytic Detection of Chlorate, Bromate and Iodate Ions in Aqueous Solutions

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Immobilisation of the polyoxometallate cluster, K6NaH[Sb2W20Fe2O70(H2O)6]·29H2O, in a polypyrrole film

Cited by 11 publications

References 49 publications

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Syntheses and Crystal Structures of dmso‐Coordinated Tungstoantimonates(III) and ‐bismuthates(III)

Exploring the electronic properties and cation complexation of polyoxoaurates [AuIII4X4Om]n−(X = SiIV, PV, GeIV, AsV, and SeIV) using quantum chemical calculations

Ultrasound-Assisted Synthesis of Hybrid Phosphomolybdate–Polybenzidine Containing Silver Nanoparticles for Electrocatalytic Detection of Chlorate, Bromate and Iodate Ions in Aqueous Solutions

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Exploring the electronic properties and cation complexation of polyoxoaurates [Au^III₄X₄O_m]ⁿ⁻(X = Si^IV, P^V, Ge^IV, As^V, and Se^IV) using quantum chemical calculations