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Photoswitchable Zirconium MOF for Light-Driven Hydrogen Storage.

Vera V ButovaOlga A BurachevskayaVitaly A PodshibyakinEvgenii N ShepelenkoAndrei A TereshchenkoSvetlana O ShapovalovaOleg I Il'inVladimir A Bren'Alexander V Soldatov
Published in: Polymers (2021)
Here, we report a new photosensitive metal-organic framework (MOF) that was constructed via the modification of UiO-66-NH2 with diarylethene molecules (DAE, 4-(5-Methoxy-1,2-dimethyl-1H-indol-3-yl)-3-(2,5-dimethylthiophen-3-yl)-4-furan-2,5-dione). The material that was obtained was a highly crystalline porous compound. The photoresponse of the modified MOF was observed via UV-Vis and IR spectroscopy. Most of the DAE molecules inside of the UiO-66-pores had an open conformation after synthesis. However, the equilibrium was able to be shifted further toward an open conformation using visible light irradiation with a wavelength of 520 nm. Conversely, UV-light with a wavelength of 450 nm initiated the transformation of the photoresponsive moieties inside of the pores to a closed modification. We have shown that this transformation could be used to stimulate hydrogen adsorption-desorption processes. Specifically, visible light irradiation increased the H2 capacity of modified MOF, while UV-light decreased it. A similar hybrid material with DAE moieties in the UiO-66 scaffold was applied for hydrogen storage for the first time. Additionally, the obtained results are promising for smart H2 storage that is able to be managed via light stimuli.
Keyphrases
  • metal organic framework
  • visible light
  • aqueous solution
  • molecular dynamics simulations
  • photodynamic therapy
  • high resolution
  • crystal structure
  • radiation therapy