Light triggered pore size tuning in photoswitching covalent triazine frameworks for low energy CO2 capture

Qi Huang, Zhen Zhan, Ruixue Sun, Junju Mu*, Bien Tan*, Chunfei Wu*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

14 Citations (Scopus)
47 Downloads (Pure)

Abstract

Recently, photo switching porous materials have been widely reported for low energy costed CO2 capture and release via simply remoted light controlling method. However, most reported photo responsive CO2 adsorbents relied on metal organic framework (MOFs) functionalisation with photochromic moieties, and MOF adsorbents still suffered from chemically and thermally unstable issues. Thus, further metal free and highly stable organic photoresponsive adsorbents are necessary to be developed. CTFs, because of their high porosity and stability, have attracted great attention for CO2 capture. Considering the high CO2 uptake capacity and structural tunability of CTFs, it suggests high potential to fabricate the photoswitching CTF materials by the same functionalisation method as MOFs. Herein, the first series of photo switching CTFs were developed for low energy CO2 capture and release. Apart from that, the CO2 switching efficiency could be doubled either through the azobenzene numbers adjusting method or through the previously reported structural alleviation strategy. Furthermore, the pore size distribution of azobenzene functionalised PCTFs also could be tuned under UV exposure, which may contribute to the UV light induced decrease of CO2 uptake capacity. These photoswitching CTFs represented a new kind of porous polymers for low energy costed CO2 capture.

Original languageEnglish
Article numbere202305500
Number of pages9
JournalAngewandte Chemie International Edition
Volume62
Issue number28
Early online date01 Jun 2023
DOIs
Publication statusPublished - 10 Jul 2023

Keywords

  • General Chemistry
  • Catalysis
  • Carbon dioxide capture
  • Photo switching
  • covalent triazine framework

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