Kiminori Sakai scite author profile

Kiminori Sakai

5Publications

1Citation Statement Received

4Citation Statements Given

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Affiliations

Tohoku University Hospital, Tohoku University, Orthopaedic Hospital

Publications

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Molecular Dynamics Study of Oxygen Permeation in PFSA Ionomer on the Pt Catalyst Surface

Sakai¹,

Tokumasu²

2011

ECS Trans.

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In polymer electrolyte membrane fuel cell (PEFC) cathode catalyst layer, PFSA ionomer with which the catalyst is covered is very important on the point of transferring protons to the catalytic surface on the cathode side. On the other hand, it is said that an ionomer interferes with oxygen permeation to the catalytic surface. The mechanism of oxygen permeation through an ionomer was not analyzed in detail because it is too small to research by experiment. Moreover molecular dynamics simulation of the catalyst layer and oxygen permeability has not yet studied. In this research, we constructed the system of ionomer on the platinum surface by using molecular dynamics study, and studied about the effect of the water content of the ionomer on the structure of the ionomer and permeability of the oxygen molecule.

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Molecular Dynamics Study of Oxygen Permeation Through the Ionomer of PEFC Catalyst Layer

Sakai

Tokumasu

2011

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Polymer electrolyte membrane fuel cell (PEFC) is focused worldwide as the energy conversion device of next generation. In the PEFC cathode catalyst layer, an ionomer with which the catalyst is covered is very important on the point of transferring protons to the catalytic surface on the cathode side. On the other hand, it is said that an ionomer interferes with oxygen permeation to the catalytic surface. The mechanism of oxygen permeation through an ionomer was not analyzed in detail because it is too small to research by experiment. Moreover molecular dynamics simulation of the catalyst layer and oxygen permeability has not yet studied. In this research, we constructed the system including nafion, water, oxonium ion, platinum layers by using molecular dynamics study, and studied about the effect of the water content of the ionomer on the structure of the ionomer and permeability of the oxygen molecule. As the results, a lot of oxygen molecules permeated through a dried ionomer and reached to the catalytic surface but there were few oxygen molecules that permeated through a hydrated ionomer and reached there. In addition, it is found that the shape of the ionomer in the case of water content rate γ = 3, 7, 11 changed.

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0303 Oxygen diffusion in ionomer of PEFC cathode side catalyst layer

Sakai

Tokumasui

2010

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A Clinical Study of Injuries Associated with Physeal Injury of the Distal Radius.

Akimoto

Aso

Masumi

et al. 1993

Orthopedics & Traumatology

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S053011 Molecular Dynamics Study of Oxygen Diffusion in the Ionomer of PEFC catalyst layer

Sakai

Tokumasu

2011

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Kiminori Sakai

Molecular Dynamics Study of Oxygen Permeation in PFSA Ionomer on the Pt Catalyst Surface

Molecular Dynamics Study of Oxygen Permeation Through the Ionomer of PEFC Catalyst Layer

0303 Oxygen diffusion in ionomer of PEFC cathode side catalyst layer

A Clinical Study of Injuries Associated with Physeal Injury of the Distal Radius.

S053011 Molecular Dynamics Study of Oxygen Diffusion in the Ionomer of PEFC catalyst layer

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