Palladium nanoparticles and nanowires deposited electrochemically: AFM and electrochemical characterization

Diculescu, Victor C.; Chiorcea-Paquim, Ana-Maria; Corduneanu, Oana; Oliveira-Brett, Ana Maria

doi:10.1007/s10008-007-0275-7

Cited by 75 publications

(58 citation statements)

References 46 publications

(66 reference statements)

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“…A similar behavior was reported earlier for Pd and Pd-Au alloys [38][39][40][41]. These effects are accompanied by changes in the current intensities, which may significantly increase or decrease after the hydrogen treatment, depending on the electrode composition.…”

Section: X-ray Diffraction Analysis Of Pd/f-tntssupporting

confidence: 71%

Linen fiber template-assisted preparation of TiO2 nanotubes: palladium nanoparticle coating and electrochemical applications

Alexander

Pandian

2012

J Solid State Electrochem

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TiO 2 nanotubes were fabricated from TiF 4 precursors within the pore channels of the linen fiber templates, resulting in crystalline fabricated titanate nanotubes (f-TNTs) upon removal by calcination at 500-600°C. The f-TNTs were formed by the aggregation of TiO 2 nanoparticles (NPs) with a diameter of 80 nm; the wall thickness and size of the f-TNTs can be controlled by adjusting the concentration of the TiF 4 precursor, time, temperature, and the size of the linen fibers respectively. After that, palladium (Pd (0) ) NPs were coated on the surface of the f-TNTs (Pd/f-TNTs) by the chemical reduction method, using NaBH 4 as a reducing agent. The size of the Pd (0) NPs is about 10-13 nm. The Pd/f-TNT nanocomposite is systematically characterized by X-ray diffraction, highresolution transmission electron microscopy, and field emission scanning electron microscopy. The Pd/f-TNT nanocompositemodified glassy carbon electrodes exhibited excellent electrocatalytic activity as well as amperometric determination of hydrazine, ascorbic acid, and dopamine; these electrochemical applications were carried out by cyclic voltammetry.

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Section: X-ray Diffraction Analysis Of Pd/f-tntssupporting

confidence: 71%

Linen fiber template-assisted preparation of TiO2 nanotubes: palladium nanoparticle coating and electrochemical applications

Alexander

Pandian

2012

J Solid State Electrochem

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“…As depicted in Figure 6a for Pd@PdO54, on initiating the potential scan at the open circuit potential (À 0.05 V vs. AgCl/Ag) in the cathodic direction, weak reduction peaks at À 0.28 and À 0.75 V are recorded while in the subsequent anodic scan, a prominent oxidation current at þ 0.45 V was recorded. This process is followed, in the second and successive cathodic scans, by a prominent reduction peak at À 0.48 V. This response can be interpreted on assuming that the PdO shell is first reduced to Pd metal via processes at À 0.28 and À 0.75 V (tentatively attributable to isolated and aggregated nanoparticles, respectively) to Pd metal and that the entire nanoparticles are oxidized to Pd 2þ (aq) at potentials above þ 0.45 V, consistently with data from Diculescu et al [55]. In the second and subsequent cathodic scans, the Pd 2þ ions in solution coming from the nanoparticle core, are massively reduced to Pd metal at À 0.45 V. The potential for the Pd to Pd 2þ oxidation in 0.10 M NaOH is close to that theoretically expected from thermochemical data, taking into account the pH of the media (E8(Pd 2þ /Pd) ¼ 0.62 V vs. AgCl/Ag at pH 0.0) [57].…”

Section: Electrochemistry Of Pd@pdosupporting

confidence: 55%

Solid‐State Electrochemical Method for Determining Core and Shell Size in Pd@PdO Nanoparticles

et al. 2010

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Electrochemical characterization of palladium nanoparticles surrounded by a palladium oxide shell (Pd@PdO) is described from a combination of voltammetry plus electrochemical quartz crystal microbalance experiments at nanoparticle deposits on graphite electrodes in contact with aqueous H 2 SO 4 and NaOH solutions. A method for determining the metal core size and oxide shell thickness of the Pd@PdO nanoparticles, based on a combination of conventional voltammetry of nanoparticles in DMSO solution and voltammetry of nanoparticle deposits in contact with 0.10 M aqueous NaOH solution, is described.

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“…In situ microscopic methods such as atomic force microscopy (AFM) or liquid-phase TEM can be utilised to follow the growth process [15][16][17][18]. The drawback of studying nucleation and growth through electrochemistry on a solid electrode is the presence of defects on the electrode surface which act as preferential nucleation sites causing heterogeneity within the reaction [19].…”

Section: Introductionmentioning

confidence: 99%

In situ XAFS Study of Palladium Electrodeposition at the Liquid/Liquid Interface

Booth

Chang

Uehara

et al. 2017

Electrochimica Acta

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We report the use of XAFS (X-ray absorption fine structure) as an in situ method to follow the electrochemically driven deposition of palladium nanoparticles at a liquid/liquid interface.A novel glass/plastic hybrid electrochemical cell was used to enable control of the potential applied to the liquid/liquid interface. In situ measurements indicate that the nucleation of metallic nanoparticles can be triggered through chronoamperometry or cyclic voltammetry.Page 2 of 37 A c c e p t e d M a n u s c r i p tIn contrast to spontaneous nucleation at the liquid/liquid interface, whereby fluctuations in Pd oxidation state and concentration are observed, under a fixed interfacial potential the growth process occurs at a steady rate leading to a build-up of palladium at the interface. Raman spectroscopy of the deposit suggests that the organic electrolyte binds directly to the surface of the deposited nanoparticles. It was found that the introduction of citric acid results in the formation of spherical nanoparticles at the interface.

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Palladium nanoparticles and nanowires deposited electrochemically: AFM and electrochemical characterization

Cited by 75 publications

References 46 publications

Linen fiber template-assisted preparation of TiO2 nanotubes: palladium nanoparticle coating and electrochemical applications

Linen fiber template-assisted preparation of TiO2 nanotubes: palladium nanoparticle coating and electrochemical applications

Solid‐State Electrochemical Method for Determining Core and Shell Size in Pd@PdO Nanoparticles

In situ XAFS Study of Palladium Electrodeposition at the Liquid/Liquid Interface

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