Tunable Covalent Triazine-Based Frameworks (CTF-0) for Visible-Light-Driven Hydrogen and Oxygen Generation from Water Splitting
ID:106 View Protection:ATTENDEE Updated Time:2022-05-14 22:28:38 Hits:1562 Oral Presentation

Start Time:2022-05-27 14:40(Asia/Shanghai)

Duration:20min

Session:S7 Mineral Materials and Advanced Energy Materials » S7-3Mineral Materials and Advanced Energy Materials-3

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Abstract
Covalent triazine-based frameworks (CTFs), a group of semiconductive polymers, have been identified for photocatalytic water splitting recently. Their adjustable band gap and facile processing offer great potential for discovery and development. Here, we present a series of CTF-0 materials fabricated by two different approaches, a microwave-assisted synthesis and an ionothermal method, for water splitting driven by visible-light irradiation. The material (CTF-0-M2) synthesized by microwave technology shows a high photocatalytic activity for hydrogen evolution (up to 7010 μmol h−1 g−1), which is 7 times higher than another (CTF-0-I) prepared by conventional ionothermal trimerization under identical photocatalytic conditions. This leads to a high turnover number (TON) of 726 with respect to the platinum cocatalyst after seven cycles under visible light. We attribute this to the narrowed band gap, the most negative conduction band, and the rapid photogenerated charge separation and transfer. On the other hand, the material prepared by the ionothermal method is the most efficient one for oxygen evolution. CTF-0-I initially produces ca. 6 times greater volumes of oxygen gas than CTF-0-M2 under identical experimental conditions. CTF-0-I presents an apparent quantum efficiency (AQY) of 5.2% at 420 nm for oxygen production without any cocatalyst. The activity for water oxidation exceeds that of most reported CTFs due to a large driving force for oxidation and a large number of active sites. Our findings indicate that the band positions and the interlayer stacking structures of CTF-0 were modulated by varying synthesis conditions. These modulations impact the optical and redox properties, resulting in an enhanced performance for photocatalytic hydrogen and oxygen evolution, confirmed by first-principles calculations.
 
Keywords
covalent triazine frameworks,photocatalysis,hydrogen generation,oxygen generation
Speaker
Dan KONG
China University of Minging and Technology

Submission Author
Kong Dan China University of Minging and Technology
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Important Date
  • Conference Date

    May 26

    2022

    to

    May 27

    2022

  • May 03 2022

    Draft paper submission deadline

  • May 26 2022

    Contribution Submission Deadline

  • May 28 2022

    Registration deadline

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China University of Mining and Technology
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