Y. Nakajima scite author profile

The oxidation processes of a Pt(111) electrode in alkaline electrolytes depend on non-specifically adsorbed ions according to in situ X-ray diffraction and infrared spectroscopic measurements. In an aqueous solution of LiOH, an OHad adlayer is formed in the first oxidation step of the Pt(111) electrode as a result of the strong interaction between Li(+) and OHad , whereas Pt oxidation proceeds without OHad formation in CsOH solution. Structural analysis by X-ray diffraction indicates that Li(+) is strongly protective against surface roughening caused by subsurface oxidation. Although Cs(+) is situated near the Pt surface, the weak protective effect of Cs(+) results in irreversible surface roughening due to subsurface oxidation.

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In situ X-ray analytical study on the alteration process of iron oxide layers at the railhead surface while under railway traffic

Suzumura

Sone

Ishizaki

et al. 2011

Wear

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Preparation of Various Pd-Based Alloys for Electrocatalytic CO₂ Reduction Reaction—Selectivity Depending on Secondary Elements

et al. 2020

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The electrochemical conversion of CO 2 to fuels such as CO and HCOO − is a highly attractive approach for decreasing the amount of greenhouse gases in the atmosphere and sustainable generation of valuable resources. Herein, electrocatalytic selectivities toward CO 2 reduction reaction over nanosized Pd−M (M = Zn, Cu, Sn, and Ag) bimetallic alloys were investigated. It was found that the selectivity for the products in the CO 2 reduction reaction depends on the effects of secondary elements, with Pd−Zn and Pd−Cu alloys showing formate selectivity and Pd−Ag 3 and Pd−Sn alloys showing CO selectivity. The faradic efficiency (FE) of HCOO − for PdZn NPs/CB was found to be significantly higher than that of the conventional Pd nanoparticles catalyst for the CO 2 reduction reaction at −0.1 V, and a record high FE of 99.4% at −0.1 V was also found. On the other hand, bimetallic PdAg 3 exhibits CO selectivity with a low overpotential and a much high FE (96.2% at −0.8 V) compared to Pd. The analysis of the center of the Pd d-band (i.e., d-band center) allowed us to rationalize the obtained high FE toward the CO 2 reduction reaction. We believe that this systematic effort will accelerate the development of novel highly selective and active electrocatalysts.

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Structure of the electrical double layer on Ag(100): Promotive effect of cationic species on Br adlayer formation

et al. 2011

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We revealed the promotive effect of alkali metal cations on Br adlayer formation on an Ag(100) electrode by in-situ measurement of the x-ray specular rod. Alkali metal cations in the electrical double layer affect the onset potential of Br adsorption and the order-disorder transition. We determined the Cs structure in the electrical double layer during Br adlayer formation and found that (1) the Cs structure depends on the coverage of adsorbed Br, and (2) the amount of Cs increases at the initial stage of Br adlayer formation. Structural analysis suggests that hydrated Cs is localized in the area around adsorbed Br via noncovalent interactions. Formation of a Cs-Br complex promotes Br adsorption.

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Reconstructions and predictions of nonlinear dynamical systems: a hierarchical Bayesian approach

Matsumoto

Nakajima

Saito

et al. 2001

IEEE Trans. Signal Process.

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Y. Nakajima

Effect of Non‐Specifically Adsorbed Ions on the Surface Oxidation of Pt(111)

In situ X-ray analytical study on the alteration process of iron oxide layers at the railhead surface while under railway traffic

Preparation of Various Pd-Based Alloys for Electrocatalytic CO₂ Reduction Reaction—Selectivity Depending on Secondary Elements

Structure of the electrical double layer on Ag(100): Promotive effect of cationic species on Br adlayer formation

Reconstructions and predictions of nonlinear dynamical systems: a hierarchical Bayesian approach

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Y. Nakajima

Effect of Non‐Specifically Adsorbed Ions on the Surface Oxidation of Pt(111)

In situ X-ray analytical study on the alteration process of iron oxide layers at the railhead surface while under railway traffic

Preparation of Various Pd-Based Alloys for Electrocatalytic CO2 Reduction Reaction—Selectivity Depending on Secondary Elements

Structure of the electrical double layer on Ag(100): Promotive effect of cationic species on Br adlayer formation

Reconstructions and predictions of nonlinear dynamical systems: a hierarchical Bayesian approach

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Product

Resources

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Preparation of Various Pd-Based Alloys for Electrocatalytic CO₂ Reduction Reaction—Selectivity Depending on Secondary Elements