The Effect of Size on the Oxygen Electroreduction Activity of Mass‐Selected Platinum Nanoparticles

Pérez‐Alonso, Francisco J.; McCarthy, David Norman; Nierhoff, Anders Ulrik Fregerslev; Hernández-Fernández, P.; Strebel, Christian Ejersbo; Stephens, Ifan E. L.; Nielsen, Linda; Chorkendorff, Ib

doi:10.1002/anie.201200586

Cited by 346 publications

(294 citation statements)

References 24 publications

(6 reference statements)

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“…Figure 3 (bottom A) shows the variation of the Pt L IIIedge XANES white line peak heights at 0.4 V with the specific power density [51], which is in agreement with the linear relationship between ORR activity and d-band center shift for Pt 3 Co, Pt 3 Ni, and Pt [70][71][72]. Although we did not investigate the particle size effect on the structural kinetics, the ORR kinetics may not be affected by the particle size of Pt cathode electrocatalysts (below 5 nm size) [73,74]. The enhancements of the rate constants by the Co and Ni addition to Pt/C are shown in Fig.…”

Section: Introductionsupporting

confidence: 80%

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

2014

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The account article treats with the characterizations of the structural and electronic transformations of Pt/C, Pt 3 Co/C, and Pt 3 Ni/C cathode electrocatalysts in polymer electrolyte fuel cells (PEFCs) involving Pt charging/discharging, Pt-O bond formation/breaking, and Pt-Pt bond breaking/reformation in cathode potential-jump processes and the rate constants of those transformations in the surface reaction sequences on the cathode electrocatalysts by in situ time-resolved X-ray absorption fine structure (XAFS) method. Spatially heterogeneous issue and mechanism for the Pt oxidation and degradation of Pt/C cathode electrocatalyst layers in PEFCs under the operating conditions, which should be uncovered for development of next-generation PEFCs, were also characterized by a scanning nano-XAFS mapping method and a laminography-XAFS method, respectively for 2D and 3D visualizations of Pt chemical species in Pt/C cathode electrocatalyst layers. These XAFS techniques provided new insights into critical issues affecting the performance and property of practical PEFCs under the operating conditions.

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Section: Introductionsupporting

confidence: 80%

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

2014

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“…Most, albeit not all, theoretical and experimental studies seem to suggest that the surface specific activity for oxygen reduction should decrease with a decrease in particle size. 12,[22][23][24][25][26][27][28] However, this notion is in conflict with the experimental observation that extended single crystal stepped Pt surfaces sometimes exhibit higher oxygen reduction activity than unstepped surfaces. [29][30][31] One strategy to improve the activity of Pt is to alloy it with other metals.…”

Section: Introductionmentioning

confidence: 92%

Exploring the phase space of time of flight mass selected Pt_xY nanoparticles

Masini

Hernández-Fernández

Deiana³

et al. 2014

Phys. Chem. Chem. Phys.

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Mass-selected nanoparticles can be conveniently produced using magnetron sputtering and aggregation techniques. However, numerous pitfalls can compromise the quality of the samples, e.g. double or triple mass production, dendritic structure formation or unpredicted particle composition. We stress the importance of transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS) and ion scattering spectroscopy (ISS) for verifying the morphology, size distribution and chemical composition of the nanoparticles. Furthermore, we correlate the morphology and the composition of the Pt x Y nanoparticles with their catalytic properties for the oxygen reduction reaction. Finally, we propose a completely general diagnostic method, which allows us to minimize the occurrence of undesired masses.

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“…Central to this is the use of capping agents to ensure that nanoparticles do not agglomerate in solution. The effect of size and shape on electrocatalytic performance of metal nanoparticles has been well documented [9][10][11][12]. However, there are other factors that need to be considered when assessing the applicability of an electrocatalyst and that is the presence of defect sites and capping agents.…”

Section: Introductionmentioning

confidence: 99%

Probing the surface oxidation of chemically synthesised gold nanospheres and nanorods

2014

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In this study, the electrochemical behaviour of commercially available gold spheres and rods stabilised by carboxylic acid and cetyl trimethyl ammonium bromide (CTAB) moieties, respectively, are investigated. The cyclic voltammetric behaviour in acidic electrolyte is distinctly different with the nanorods exhibiting unusual oxidative behaviour due to an electrodissolution process. The nanospheres exhibited responses typical of a highly defective surface which significantly impacted on electrocatalytic activity. A repetitive potential cycling cleaning procedure was also investigated which did not improve the activity of the nanorods and resulted in deactivating the gold spheres due to decreasing the level of surface defects.

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The Effect of Size on the Oxygen Electroreduction Activity of Mass‐Selected Platinum Nanoparticles

Cited by 346 publications

References 24 publications

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

Exploring the phase space of time of flight mass selected Pt_xY nanoparticles

Probing the surface oxidation of chemically synthesised gold nanospheres and nanorods

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The Effect of Size on the Oxygen Electroreduction Activity of Mass‐Selected Platinum Nanoparticles

Cited by 346 publications

References 24 publications

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

Key Factors Affecting the Performance and Durability of Cathode Electrocatalysts in Polymer Electrolyte Fuel Cells Characterized by In Situ Real Time and Spatially Resolved XAFS Techniques

Exploring the phase space of time of flight mass selected PtxY nanoparticles

Probing the surface oxidation of chemically synthesised gold nanospheres and nanorods

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Exploring the phase space of time of flight mass selected Pt_xY nanoparticles