Experimental and Theoretical Investigation of the Stability of Pt−3d−Pt(111) Bimetallic Surfaces under Oxygen Environment

Menning, Carl A.; Hwu, Henry H.; Chen, Jingguang G.

doi:10.1021/jp061697z

Cited by 149 publications

(133 citation statements)

References 38 publications

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“…The driven forces for this are the lower surface energy and larger atomic size of Pt than that of the 3d TMs. In this particular case, calculated E (so-called segregation energy) decreases from the left (0.75 eV for Cr) to the right (0.47 eV for Cu) of the periodic table, and the results agree well with previous DFT calculations and experiments [31,[40][41][42]. To study the structure evolution of Pt-3d TM surfaces in the presence of CO, we explore a number of high-symmetry sites, and it turns out that CO adsorption prefers exclusively to the top sites of exposed Pt atoms, irrespective of 3d TMs in the surface or subsurface layer.…”

Section: Structure Under Reductive Conditionssupporting

confidence: 88%

“…Kinetically, Menning and Chen reported a small activation barrier of 15 ± 2 and 7 ± 1 kcal/mol for the segregation of Pt-Ni and Pt-Co subsurface alloys in the presence of adsorbed oxygen under ultra high vacuum (UHV) conditions [40], and likewise small activation barrier of 32 kcal/mol for the segregation of subsurface Ni in atmospheric O 2 [31]. These results together with present calculations indicate that the formation of the Pt-3d TM surface alloys is not only energetically favorable but also kinetically feasible under the oxidizing conditions.…”

Section: Discussionmentioning

confidence: 99%

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Structure evolution of Pt–3d transition metal alloys under reductive and oxidizing conditions and effect on the CO oxidation: a first-principles study

Su¹,

Gu²,

Ma³

et al. 2011

Catalysis Today

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Section: Structure Under Reductive Conditionssupporting

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Structure evolution of Pt–3d transition metal alloys under reductive and oxidizing conditions and effect on the CO oxidation: a first-principles study

Su¹,

Gu²,

Ma³

et al. 2011

Catalysis Today

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“…15,16 It was shown for Pt-M-Pt (M = Ru, Rh, Pd, Re, Os, Ir, Pt) that the O and OH binding energies could possibly be non-correlated for these materials. 1, 17 Thus, we seek to find cases of high oxoasymmetry, and this class of catalysts was shown to display this property.…”

Section: H 2 O Formation: There Is Only One Reaction (8)mentioning

confidence: 99%

“…Comparing with experiments, the only study done on Pt-M-Pt catalysts involves M = 3d transition metals 16 and did not involve Ru. A related study looked at a Pt monolayer on pure Ru catalyst 30,31 .…”

Section: Overlap = D-dos(-593)+d-dos(-435)+d-dos(-377)+d-dos(-067mentioning

confidence: 99%

Elucidating challenges of reactions with correlated reactant and product binding energies on an example of oxygen reduction reaction

Torres

Merinov

et al. 2016

Journal of Molecular Catalysis A: Chemical

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Using density functional theory (DFT), Pt-based sandwich catalysts have been studied to identify a strategy for improving the energetically unfavorable O hydration catalytic reaction (O + H 2 O → 2OH) in fuel cells. The challenge for this type of reaction is that the reactant, O, and product, OH, have correlated binding energies, making the improvement of the overall energetics of the reaction problematic. We screened 28 different transition metals as the Pt-M-Pt sandwich middle layer and developed a new index that specifically describes the difficulty of the reaction which involves adsorbed atomic O as the reactant and adsorbed OH as the product. This index is found 2 to predict well the barrier of the O hydration. In order to understand how the index can be optimized, we further studied the electronic density of states (DOS) to elucidate the DOS changes for the different Pt-M-Pt sandwiches. This gives insight on strategies that might be applied to improve the catalytic reactions where the reactant and product have correlated binding energies, which is in fact a common challenge in heterogeneous catalysis.

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“…The promoting effects of alloying of Pt with Co, Ni, etc. have been studied by various techniques such as theoretical calculations [58][59][60][61][62], transmission electron microscopy [56][57][58][59][60][61][62][63][64][65][66][67], and photoelectron spectroscopy [55,68,69]. Although these studies have revealed relationships between the ORR enhancements and the bimetal structures, the details of dynamic surface events taking place at the cathode electrocatalyst surface remain unclear, including individual redox processes under PEFC working conditions.…”

Section: Introductionmentioning

confidence: 99%

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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Experimental and Theoretical Investigation of the Stability of Pt−3d−Pt(111) Bimetallic Surfaces under Oxygen Environment

Cited by 149 publications

References 38 publications

Structure evolution of Pt–3d transition metal alloys under reductive and oxidizing conditions and effect on the CO oxidation: a first-principles study

Structure evolution of Pt–3d transition metal alloys under reductive and oxidizing conditions and effect on the CO oxidation: a first-principles study

Elucidating challenges of reactions with correlated reactant and product binding energies on an example of oxygen reduction reaction

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

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