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https://hdl.handle.net/20.500.14094/90007789
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2024-12-22
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90007789 (fulltext)
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メタデータID
90007789
アクセス権
open access
出版タイプ
Version of Record
タイトル
Transient Kinetics of O2 Evolution in Photocatalytic Water-Splitting Reaction
著者
Kosaka, Takumu ; Teduka, Yuya ; Ogura, Takuya ; Zhou, Yuanshu ; Hisatomi, Takashi ; Nishiyama, Hiroshi ; Domen, Kazunari ; Takahashi, Yasufumi ; Onishi, Hiroshi
著者名
Kosaka, Takumu
著者名
Teduka, Yuya
著者名
Ogura, Takuya
著者名
Zhou, Yuanshu
著者名
Hisatomi, Takashi
著者名
Nishiyama, Hiroshi
著者名
Domen, Kazunari
著者名
Takahashi, Yasufumi
著者ID
A0273
研究者ID
1000020213803
KUID
https://kuid-rm-web.ofc.kobe-u.ac.jp/search/detail?systemId=f54b5a5b772d8e5d520e17560c007669
著者名
Onishi, Hiroshi
大西, 洋
オオニシ, ヒロシ
所属機関名
理学研究科
言語
English (英語)
収録物名
ACS Catalysis
巻(号)
10(22)
ページ
13159-13164
出版者
American Chemical Society
刊行日
2020-11-20
公開日
2021-11-01
注記
Published online: 29 October 2020
抄録
Water splitting to produce H2 and O2 is a fundamental reaction for artificial photosynthesis on semiconductor photocatalysts. The mechanism of the multistepped reaction, especially four-electron oxidation to O2, has not yet been understood. Although some intermediate states have been detected in transient spectroscopy, O2 evolution kinetics remain unknown at the end of consecutive reaction steps. We apply operando O2 detection with a microelectrode to determine the absolute evolution rate on a highly efficient SrTiO3 photocatalyst film casted on a glass plate. The evolution rate was determined with a time resolution of 0.1 s, which was improved by 1000 times compared with that in widely used gas-chromatographic detection. The observed rate did not respond instantaneously to excitation light irradiation. When light was turned on, the photocatalyst film was inactive for evolution and light-activated in seconds. It was proposed that the first absorbed photons were consumed to fill trap states on SrTiO3 surface and then the latter photons drove steady O2 evolution. When excitation light stopped, the O2 evolution rate exponentially decayed in seconds. The microelectrode method demonstrated herein will be useful for understanding many other reaction kinetics at liquid-solid interfaces.
キーワード
artificial photosynthesis
mechanism
microelectrode
reaction rate
strontium titanate
カテゴリ
理学研究科
学術雑誌論文
権利
© 2020 American Chemical Society. This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes.
関連情報
DOI
https://doi.org/10.1021/acscatal.0c04115
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資源タイプ
journal article
eISSN
2155-5435
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NCID
AA12599706
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