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Enhancing the Photocatalytic Activity of Zirconium-Based Metal-Organic Frameworks Through the Formation of Mixed-Valence Centers.

Zihao WeiShaojia SongHongfei GuYaqiong LiQi SunNing DingHao TangLirong ZhengShuhu LiuZhenxing LiWenxing ChenShenghua LiSiping Pang
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Despite the desirability of metal-organic frameworks (MOFs) as heterogeneous photocatalysts, current strategies available to enhance the performance of MOF photocatalysts are complicated and expensive. Herein, a simple strategy is presented for improving the activity of MOF photocatalysts by regulating the atomic interface structure of the metal active sites on the MOF. In this study, MOF (PCN-222) is hybridized with cellulose acetate (CA@PCN-222) through an optimized atomic interface strategy, which lowers the average valence state of Zr ions. The electronic metal-support interaction mechanism of CA@PCN-222 is revealed by evaluating the photocatalytic CO 2 reduction reaction (CO 2 RR). The experimental results suggested that the electron migration efficiency at the atomic interface of the MOFs strongly coupled with cellulose is significantly improved. In particular, the CO 2 RR to formate activity of CA@PCN-222 photocatalyst greatly increased from 778.2 to 2816.0 µmol g -1 compared with pristine PCN-222 without cellulose acetate. The findings suggest that the strongly coupled metal-ligand moiety at the atomic interface of MOFs may play a synergistic role in heterogeneous catalysts.
Keyphrases
  • metal organic framework
  • visible light
  • ionic liquid
  • highly efficient
  • electron microscopy
  • aqueous solution
  • cancer therapy
  • drug delivery
  • quantum dots
  • pet ct