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Creation and Plasmon-Assisted Photosensitization of Annealed Z-Schemes for Sunlight-Only Water Splitting.

Denis ZabelinKamil SeveraJaroslav KuličekBohuslav RezekAnastasiia TulupovaRoman ElashnikovAnna ZabelinaVasilii BurtsevPetr SajdlElena MiliutinaVaclav SvorcikOleksiy Lyutakov
Published in: ACS applied materials & interfaces (2023)
Solely light-induced water splitting represents a promising avenue for a carbon-free energy future, based on reliable energy sources. Such processes can be performed using coupled semiconductor materials (the so-called direct Z-scheme design) that facilitate spatial separation of (photo)excited electrons and holes, prevent their recombination, and allow water-splitting half-reactions proceeding at each corresponding semiconductor side. In this work, we proposed and prepared a specific structure, based on WO 3g- x /CdWO 4 /CdS coupled semiconductors, created by annealing of a common WO 3 /CdS direct Z-scheme. WO 3- x /CdWO 4 /CdS flakes were further combined with a plasmon-active grating for the creation of the so-called artificial leaf design, making possible complete utilization of the sunlight spectrum. The proposed structure enables water splitting with high production of stoichiometric amounts of oxygen and hydrogen without undesirable catalyst photodegradation. Several control experiments confirm the creation of electrons and holes participating in the water splitting half-reaction in a spatially selective manner.
Keyphrases
  • visible light
  • energy transfer
  • room temperature
  • electron transfer
  • dna damage
  • quantum dots
  • dna repair
  • current status
  • drinking water
  • ionic liquid
  • mass spectrometry