Electrovariable gold nanoparticle films at liquid–liquid interfaces: from redox electrocatalysis to Marangoni-shutters

Gschwend, Grégoire C.; Smirnov, Evgeny; Peljo, Pekka; Girault, Hubert H.

doi:10.1039/c6fd00238b

Cited by 20 publications

(23 citation statements)

References 45 publications

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“…111 Also, IMPS has been used recently to study the role of the NPs as redox electrocatalysts in interfacial reaction between DMFc and water soluble zwitter-porphyrin (ZnDMPyDSPP). 112 Authors demonstrated that the presence of gold nanoparticles at ITIES negates kinetic limitation for the interfacial reactions, which corroborates with previous studies. 9,84 An interesting new field is photo-induced redox electrocatalysis [113][114][115] and redox catalysis 116,117 for synthesis of solar fuels.…”

supporting

confidence: 89%

“…In this case, surface second harmonic generation (SSHG) and time-resolved SSHG may provide detailed information on molecule configurations and positioning at the interface, whereas dynamics of photoresponses (kinetic constants of electron transfer) upon heterogeneous quenching at the ITIES can be probed by intensity modulated photocurrent spectroscopy (IMPS), as was shown for of ZnTPPC and ferrocene derivatives . Also, IMPS has been used recently to study the role of NPs as redox electrocatalysts in interfacial reaction between DMFc and water-soluble zwitter-porphyrin (ZnDMPyDSPP) . The authors demonstrated that the presence of gold NPs at ITIES negates kinetic limitation for the interfacial reactions, which corroborates with previous studies. , …”

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confidence: 99%

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Redox Electrocatalysis of Floating Nanoparticles: Determining Electrocatalytic Properties without the Influence of Solid Supports

Peljo

Scanlon

Olaya

et al. 2017

J. Phys. Chem. Lett.

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Redox electrocatalysis (catalysis of electron-transfer reactions by floating conductive particles) is discussed from the point-of-view of Fermi level equilibration, and an overall theoretical framework is given. Examples of redox electrocatalysis in solution, in bipolar configuration, and at liquid-liquid interfaces are provided, highlighting that bipolar and liquid-liquid interfacial systems allow the study of the electrocatalytic properties of particles without effects from the support, but only liquid-liquid interfaces allow measurement of the electrocatalytic current directly. Additionally, photoinduced redox electrocatalysis will be of interest, for example, to achieve water splitting.

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confidence: 89%

mentioning

confidence: 99%

Redox Electrocatalysis of Floating Nanoparticles: Determining Electrocatalytic Properties without the Influence of Solid Supports

Peljo

Scanlon

Olaya

et al. 2017

J. Phys. Chem. Lett.

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“…[21,23,24] Usually the surface is not homogeneously covered, significant aggregation of particles takes place at the interface and potential cycling can induce movement of the particles generating an interfacial convection (interfacial stirring). [25] Citrate ions are typically used to stabilize AuNP suspensions in bulk aqueous solutions. [26] However, such suspensions are very stable and, due to inter-particle electrostatic repulsion, the AuNPs rarely deposit in significant numbers at the L|L interface on contacting the aqueous phase with an immiscible organic solvent.…”

Section: Resultsmentioning

confidence: 99%

Mimicking the Microbial Oxidation of Elemental Sulfur with a Biphasic Electrochemical Cell

Suárez-Herrera¹,

Sollá-Gullón²,

Scanlon³

2021

Preprint

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The lack of an artificial system that mimics elemental sulfur (S8) oxidation by microorganisms inhibits a deep mechanistic understanding of the sulfur cycle in the biosphere and the metabolism of sulfur-oxidizing microorganisms. In this article, we present a biphasic system that mimics biochemical sulfur oxidation under ambient conditions using a liquid|liquid (L|L) electrochemical cell and gold nanoparticles (AuNPs) as an interfacial catalyst. The interface between two solvents of very different polarity is an ideal environment to oxidise S8, overcoming the <a>incompatible solubilities </a>of the hydrophobic reactants (O2 and S8) and hydrophilic products (H+, SO32–, SO42–, etc.). The interfacial AuNPs provide a catalytic surface onto which O2 and S8 can adsorb. Control over the driving force for the reaction is provided by polarizing the L|L interface externally and tuning the Fermi level of the interfacial AuNPs by the adsorption of aqueous anions.

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“…Controlled assembly of molecules and nano-objects and in situ electrogeneration of nanomaterials and membranes are possible [10]. It was shown that the Galvani potential difference at the ITIES can be effectively used to manipulate the reactivity of gold nanoparticles by varying the Fermi level (both chemically and electrochemically) or the position of nanoparticles at the liquid-liquid interface [62][63][64]. It was established that the classical electroanalytical method with a solid electrode can be directly transferred to ITIES, which makes it possible to easily trace and interpret reversible charge transfer reactions [65].…”

Section: Interfacial Formationsmentioning

confidence: 99%

Interfacial Synthesis: Morphology, Structure, and Properties of Interfacial Formations in Liquid–Liquid Systems

Golubina

Kizim

2021

Russ. J. Phys. Chem.

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The results of studies in the field of interfacial synthesis and interfacial formations in liquid–liquid systems are summarized. The mechanisms of the processes of interfacial synthesis are considered. Data on the self-assembly of nanoparticles, films, and 3D materials are given. The properties of materials of interfacial formations in systems with rare-earth elements and di(2-ethylhexyl)phosphoric acid, obtained both in the presence and absence of local vibrations, are described. It was established that materials obtained in the presence of local vibrations in the interfacial layer have higher density, melting point, and magnetic susceptibility and lower electric conductivity. The effect of force field parameters on the properties of interfacial formations is considered. Practical applications and prospects for research in the field of interfacial formations are discussed.

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Electrovariable gold nanoparticle films at liquid–liquid interfaces: from redox electrocatalysis to Marangoni-shutters

Cited by 20 publications

References 45 publications

Redox Electrocatalysis of Floating Nanoparticles: Determining Electrocatalytic Properties without the Influence of Solid Supports

Redox Electrocatalysis of Floating Nanoparticles: Determining Electrocatalytic Properties without the Influence of Solid Supports

Mimicking the Microbial Oxidation of Elemental Sulfur with a Biphasic Electrochemical Cell

Interfacial Synthesis: Morphology, Structure, and Properties of Interfacial Formations in Liquid–Liquid Systems

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