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Switching Excited State Distribution of Metal-Organic Framework for Dramatically Boosting Photocatalysis.

Song GuoLi-Hui KongPing WangShuang YaoTong-Bu LuZhi-Ming Zhang
Published in: Angewandte Chemie (International ed. in English) (2022)
Photosensitization associated with electron/energy transfer represents the central science of natural photosynthesis. Herein, we proposed a protocol to dramatically improve the sensitizing ability of metal-organic frameworks (MOFs) by switching their excited state distribution from 3 MLCT (metal-to-ligand charge transfer) to 3 IL (intraligand). The hierarchical organization of 3 IL MOFs and Co/Cu catalysts facilitates electron transfer for efficient photocatalytic H 2 evolution with a yield of 26 844.6 μmol g -1 and CO 2 photoreduction with a record HCOOH yield of 4807.6 μmol g -1 among all the MOF photocatalysts. Systematic investigations demonstrate that strong visible-light-absorption, long-lived excited state and ingenious multi-component synergy in the 3 IL MOFs can facilitate both interface and intra-framework electron transfer to boost photocatalysis. This work opens up an avenue to boost solar-energy conversion by engineering sensitizing centers at a molecular level.
Keyphrases
  • metal organic framework
  • visible light
  • electron transfer
  • energy transfer
  • quantum dots
  • single molecule