Zhiqiang Yu scite author profile

The development of active and durable catalysts with reduced platinum content is essential for fuel cell commercialization. Herein we report that the dealloyed PtCo/HSC and PtCo3/HSC nanoparticle (NP) catalysts exhibit the same levels of enhancement in oxygen reduction activity (~4-fold) and durability over pure Pt/C NPs. Surprisingly, ex situ high-angle annular dark field scanning transmission electron microscopy (HAADF STEM) shows that the bulk morphologies of the two catalysts are distinctly different: D-PtCo/HSC catalyst is dominated by NPs with solid Pt shells surrounding a single ordered PtCo core; however, the D-PtCo3/HSC catalyst is dominated by NPs with porous Pt shells surrounding multiple disordered PtCo cores with local concentration of Co. In situ X-ray absorption spectroscopy (XAS) reveals that these two catalysts possess similar Pt–Pt and Pt–Co bond distances and Pt coordination numbers (CNs), despite their dissimilar morphologies. The similar activity of the two catalysts is thus ascribed to their comparable strain, ligand, and particle size effects. Ex situ XAS performed on D-PtCo3/HSC under different voltage cycling stage shows that the continuous dissolution of Co leaves behind the NPs with a Pt-like structure after 30k cycles. The attenuated strain and/or ligand effects caused by Co dissolution are presumably counterbalanced by the particle size effects with particle growth, which likely accounts for the constant specific activity of the catalysts along with voltage cycling.

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Comparison between Dealloyed PtCo₃and PtCu₃Cathode Catalysts for Proton Exchange Membrane Fuel Cells

Zhang

Liu

et al. 2012

J. Phys. Chem. C

112

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Dealloyed PtCo 3 and PtCu 3 catalysts supported on high surface area carbon (HSC), which were synthesized under different conditions, were tested as cathode electrodes in proton exchange membrane fuel cells. The dealloyed PtCu 3 / HSC gave higher initial oxygen reduction reaction (ORR) kinetic activity but much worse durability in a voltage cycling test. Detailed characterization was undertaken to develop insights toward the development of catalysts with both high activity and good durability. In situ X-ray absorption spectroscopy (XAS) analysis showed that dealloyed PtCu 3 / HSC exhibited stronger bulk Pt−Pt compressive strains and higher bulk d-band vacancies (attributed in part to a greater ligand effect induced by Pt−Cu bonding) than dealloyed PtCo 3 /HSC, factors which can be expected to correlate with the higher initial activity of dealloyed PtCu 3 /HSC. Annular dark field (ADF) imaging and electron energy loss spectroscopy (EELS) mapping demonstrated that a strong majority of metal nanoparticles in both dealloyed PtCu 3 /HSC and PtCo 3 /HSC have variants of core−shell structures. However, the most prevalent structure in the dealloyed PtCo 3 /HSC gave multiple dark spots in ADF images, approximately half of which were due to Co-rich alloy cores and half of which arose from voids or surface divots. In contrast, the ADF and EELS data for dealloyed PtCu 3 /HSC suggested the predominance of Pt shells surrounding single Cu-rich cores. Further work is needed to determine whether the contrast in durability between these catalysts arises from this observed structural difference, from the differences between the corrosion chemistry of Cu and Co, or from other factors not addressed in this initial comparison between two specific catalysts.

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Ortho-positronium lifetime studies of free volume in polycarbonates of different structures: influence of hole size distributions

Kluin¹,

Yu²,

Vleeshouwers³

et al. 1993

Macromolecules

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We have observed certain anomalies in computer fitting of data from positron annihilations in polymers. These suggest to us that some reported ortho-positronium (0-Ps) lifetimes and intensities in these polymers could be artifacts of the computer-fitting procedure. To evaluate this hypothesis, we have developed a computer simulation of experimental data, which can then be used to test the accuracy of the fitting program. The input to this simulation consists of the lifetimes and intensities of any number of positron populations (including para-positronium and free positron decays), plus the spectrometer resolution function, a contribution from annihilation in the positron source, and random background. The simulation uses the computer's random number generator to make the output spectrum resemble an actual experimental curve. The output spectrum is then used as input to the usual fitting program POSFIT, which determines the best-fitting values of lifetime and intensity for three positron lifetime components. When the shortest lifetime, T~, was fixed at the theoretical value of 120 ps, the values of the other lifetimes, 72 and 73, were found to be very close to the values in the simulated input. When the simulated input contained several 0-Ps lifetime components-ql, 7g,p, 73.9, etc.-the fitted (apparent) value of 7 3 (~3 ,~~~) was extremely close to the number-average input value (73). However, the fitted value for the total intensity of these components departed significantly from the total input intensity. The deviations increase drastically when the full width at half-maximum (fwhm) L 280 ps. Incorporating these new perceptions, we report investigations of the temperature dependence and aging behavior of free volume in glass and melt states for six polycarbonates of different Tg's. We have also evaluated chemical effects attributable to e+-and y-irradiation. In seeking a way to minimize effects of exposure to radiation, we have developed a new method for comparison of rejuvenated samples with well-aged material.

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Measurements of Pore Size Distribution, Porosity, Effective Oxygen Diffusivity, and Tortuosity of PEM Fuel Cell Electrodes

Carter

Zhang

2012

Fuel Cells

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The characterization of proton exchange membrane fuel cell electrodes is essential for understanding the electrode performance. In this paper, mercury intrusion porosimetry and the nitrogen adsorption method were used to measure pore size distributions and porosities (ϵ) of various electrodes, which were made with either platinum supported on amorphous carbon (Pt/VA) or platinum supported on graphitized carbon (Pt/VG), and had ionomer‐to‐carbon weight ratios (I/C) of 0.5, 1.0, and 1.5. The oxygen effective diffusivity ($ D_{{\rm O}_2}^{\rm eff} $) in electrodes was measured as a function of relative humidity (RH) in an apparatus that was previously described [Z. Yu, R. N. Carter, J. Power Sources 195 (2010) 1079–1084]. The tortuosity of electrodes at the dry condition (80 °C and 0% RH) was then determined from the measured porosities and $ D_{{\rm O}_2}^{\rm eff} $. For a given catalyst, as the I/C ratio increased, it was found that the electrode's mean pore size, porosity, and $ D_{{\rm O}_2}^{\rm eff} $ all decreased, but the tortuosity increased. For a given I/C ratio, the Pt/VA electrode exhibited larger mean pore size, larger porosity, larger $ D_{{\rm O}_2}^{\rm eff} $, and smaller tortuosity compared with the Pt/VG electrode. The contrast between Pt/VA and Pt/VG electrodes with the same I/C ratio indicates different ionomer distribution on the catalyst surface.

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Zhiqiang Yu

Improved Oxygen Reduction Activity and Durability of Dealloyed PtCo_x Catalysts for Proton Exchange Membrane Fuel Cells: Strain, Ligand, and Particle Size Effects

Comparison between Dealloyed PtCo₃and PtCu₃Cathode Catalysts for Proton Exchange Membrane Fuel Cells

Ortho-positronium lifetime studies of free volume in polycarbonates of different structures: influence of hole size distributions

Measurements of Pore Size Distribution, Porosity, Effective Oxygen Diffusivity, and Tortuosity of PEM Fuel Cell Electrodes

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Zhiqiang Yu

Improved Oxygen Reduction Activity and Durability of Dealloyed PtCox Catalysts for Proton Exchange Membrane Fuel Cells: Strain, Ligand, and Particle Size Effects

Comparison between Dealloyed PtCo3and PtCu3Cathode Catalysts for Proton Exchange Membrane Fuel Cells

Ortho-positronium lifetime studies of free volume in polycarbonates of different structures: influence of hole size distributions

Measurements of Pore Size Distribution, Porosity, Effective Oxygen Diffusivity, and Tortuosity of PEM Fuel Cell Electrodes

Contact Info

Product

Resources

About

Improved Oxygen Reduction Activity and Durability of Dealloyed PtCo_x Catalysts for Proton Exchange Membrane Fuel Cells: Strain, Ligand, and Particle Size Effects

Comparison between Dealloyed PtCo₃and PtCu₃Cathode Catalysts for Proton Exchange Membrane Fuel Cells