Pt-decorated tantalum oxide on mesoporous carbon supports for enhanced mass activity and start-stop and load cycling durability in PEFCs

R. Nishiizumi; T. Ogawa; K. Sanami; M. Yasutake; Z. Noda; S. M. Lyth; M. Nishihara; J. Matsuda; K. Sasaki

doi:10.1016/j.ijhydene.2024.05.396

Pt-decorated tantalum oxide on mesoporous carbon supports for enhanced mass activity and start-stop and load cycling durability in PEFCs

R. Nishiizumi
, T. Ogawa
, K. Sanami
, M. Yasutake
, Z. Noda
, S. M. Lyth
, M. Nishihara
, J. Matsuda
, K. Sasaki

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

4 被引用数 (Scopus)

抄録

Unique Pt/TaO_x/MC cathode electrocatalysts for polymer electrolyte fuel cells (PEFCs) are developed using partially-reduced TaO_x decorated on mesoporous carbon (MC). An initial mass activity (MA) of more than 500 A g⁻¹ was observed for a TaO_x/MC support heat treated at 700 °C in H₂ or 1300 °C in Ar, more than double that of a conventional Pt/C electrocatalyst. The durability against start-stop and load potential cycling was successfully improved compared with the reference catalysts, as verified by half-cell voltammetry and full membrane-electrode-assembly (MEA) tests. Durability against start-stop cycling was attributed to the use of a thermochemically-stable TaO_x support which prevents direct contact between Pt and MC, thus minimizing carbon corrosion. Durability against load cycling was mainly attributed to the mesoporous structure, preventing the agglomeration of Pt catalyst particles. As such, the Pt/TaO_x/MC cathode electrocatalysts presented in this work have the potential to achieve both high durability and high power output, which is especially attractive for heavy-duty vehicular fuel cell applications.

本文言語	英語
ページ（範囲）	820-831
ページ数	12
ジャーナル	International Journal of Hydrogen Energy
巻	72
DOI	https://doi.org/10.1016/j.ijhydene.2024.05.396
出版ステータス	出版済み - 6月 27 2024

!!!All Science Journal Classification (ASJC) codes

再生可能エネルギー、持続可能性、環境
燃料技術
凝縮系物理学
エネルギー工学および電力技術

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.1016/j.ijhydene.2024.05.396

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引用スタイル

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title = "Pt-decorated tantalum oxide on mesoporous carbon supports for enhanced mass activity and start-stop and load cycling durability in PEFCs",

abstract = "Unique Pt/TaOx/MC cathode electrocatalysts for polymer electrolyte fuel cells (PEFCs) are developed using partially-reduced TaOx decorated on mesoporous carbon (MC). An initial mass activity (MA) of more than 500 A g−1 was observed for a TaOx/MC support heat treated at 700 °C in H2 or 1300 °C in Ar, more than double that of a conventional Pt/C electrocatalyst. The durability against start-stop and load potential cycling was successfully improved compared with the reference catalysts, as verified by half-cell voltammetry and full membrane-electrode-assembly (MEA) tests. Durability against start-stop cycling was attributed to the use of a thermochemically-stable TaOx support which prevents direct contact between Pt and MC, thus minimizing carbon corrosion. Durability against load cycling was mainly attributed to the mesoporous structure, preventing the agglomeration of Pt catalyst particles. As such, the Pt/TaOx/MC cathode electrocatalysts presented in this work have the potential to achieve both high durability and high power output, which is especially attractive for heavy-duty vehicular fuel cell applications.",

keywords = "Cathode catalyst, Load cycle durability, Mesoporous carbon, Polymer electrolyte fuel cells, Start-stop cycle durability, Tantalum oxide support",

author = "R. Nishiizumi and T. Ogawa and K. Sanami and M. Yasutake and Z. Noda and Lyth, \{S. M.\} and M. Nishihara and J. Matsuda and K. Sasaki",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = jun,

day = "27",

doi = "10.1016/j.ijhydene.2024.05.396",

language = "English",

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TY - JOUR

T1 - Pt-decorated tantalum oxide on mesoporous carbon supports for enhanced mass activity and start-stop and load cycling durability in PEFCs

AU - Nishiizumi, R.

AU - Ogawa, T.

AU - Sanami, K.

AU - Yasutake, M.

AU - Noda, Z.

AU - Lyth, S. M.

AU - Nishihara, M.

AU - Matsuda, J.

AU - Sasaki, K.

PY - 2024/6/27

Y1 - 2024/6/27

N2 - Unique Pt/TaOx/MC cathode electrocatalysts for polymer electrolyte fuel cells (PEFCs) are developed using partially-reduced TaOx decorated on mesoporous carbon (MC). An initial mass activity (MA) of more than 500 A g−1 was observed for a TaOx/MC support heat treated at 700 °C in H2 or 1300 °C in Ar, more than double that of a conventional Pt/C electrocatalyst. The durability against start-stop and load potential cycling was successfully improved compared with the reference catalysts, as verified by half-cell voltammetry and full membrane-electrode-assembly (MEA) tests. Durability against start-stop cycling was attributed to the use of a thermochemically-stable TaOx support which prevents direct contact between Pt and MC, thus minimizing carbon corrosion. Durability against load cycling was mainly attributed to the mesoporous structure, preventing the agglomeration of Pt catalyst particles. As such, the Pt/TaOx/MC cathode electrocatalysts presented in this work have the potential to achieve both high durability and high power output, which is especially attractive for heavy-duty vehicular fuel cell applications.

AB - Unique Pt/TaOx/MC cathode electrocatalysts for polymer electrolyte fuel cells (PEFCs) are developed using partially-reduced TaOx decorated on mesoporous carbon (MC). An initial mass activity (MA) of more than 500 A g−1 was observed for a TaOx/MC support heat treated at 700 °C in H2 or 1300 °C in Ar, more than double that of a conventional Pt/C electrocatalyst. The durability against start-stop and load potential cycling was successfully improved compared with the reference catalysts, as verified by half-cell voltammetry and full membrane-electrode-assembly (MEA) tests. Durability against start-stop cycling was attributed to the use of a thermochemically-stable TaOx support which prevents direct contact between Pt and MC, thus minimizing carbon corrosion. Durability against load cycling was mainly attributed to the mesoporous structure, preventing the agglomeration of Pt catalyst particles. As such, the Pt/TaOx/MC cathode electrocatalysts presented in this work have the potential to achieve both high durability and high power output, which is especially attractive for heavy-duty vehicular fuel cell applications.

KW - Cathode catalyst

KW - Load cycle durability

KW - Mesoporous carbon

KW - Polymer electrolyte fuel cells

KW - Start-stop cycle durability

KW - Tantalum oxide support

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