論文

2021年7月15日

Water Splitting Induced by Visible Light at a Copper-Based Single-Molecule Junction

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  • Risa Fukuzumi
  • Marius Buerkle
  • Yu Li
  • Satoshi Kaneko
  • Peihui Li
  • Shuji Kobayashi
  • Shintaro Fujii
  • Manabu Kiguchi
  • Hisao Nakamura
  • Kazuhito Tsukagoshi
  • Tomoaki Nishino
  • 全て表示

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記述言語
掲載種別
研究論文(学術雑誌)
DOI
10.1002/smll.202008109

Water splitting is an essential process for converting light energy into easily storable energy in the form of hydrogen. As environmentally preferable catalysts, Cu-based materials have attracted attention as water-splitting catalysts. To enhance the efficiency of water splitting, a reaction process should be developed. Single-molecule junctions (SMJs) are attractive structures for developing these reactions because the molecule electronic state is significantly modulated, and characteristic electromagnetic effects can be expected. Here, water splitting is induced at Cu-based SMJ and the produced hydrogen is characterized at a single-molecule scale by employing electron transport measurements. After visible light irradiation, the conductance states originate from Cu/hydrogen molecule/Cu junctions, while before irradiation, only Cu/water molecule/Cu junctions were observed. The vibration spectra obtained from inelastic electron tunneling spectroscopy combined with the first-principles calculations reveal that the water molecule trapped between the Cu electrodes is decomposed and that hydrogen is produced. Time-dependent and wavelength-dependent measurements show that localized-surface plasmon decomposes the water molecule in the vicinity of the junction. These findings indicate the potential ability of Cu-based materials for photocatalysis.

リンク情報
DOI
https://doi.org/10.1002/smll.202008109
PubMed
https://www.ncbi.nlm.nih.gov/pubmed/34089231
Scopus
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85107121121&origin=inward
Scopus Citedby
https://www.scopus.com/inward/citedby.uri?partnerID=HzOxMe3b&scp=85107121121&origin=inward
ID情報
  • DOI : 10.1002/smll.202008109
  • ISSN : 1613-6810
  • eISSN : 1613-6829
  • PubMed ID : 34089231
  • SCOPUS ID : 85107121121

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