AIP Advances (Mar 2018)

Effects of ligand functionalization on the photocatalytic properties of titanium-based MOF: A density functional theory study

  • Yi Li,
  • Yuqing Fu,
  • Bilian Ni,
  • Kaining Ding,
  • Wenkai Chen,
  • Kechen Wu,
  • Xin Huang,
  • Yongfan Zhang

DOI
https://doi.org/10.1063/1.5021098
Journal volume & issue
Vol. 8, no. 3
pp. 035012 – 035012-10

Abstract

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The first principle calculations have been performed to investigate the geometries, band structures and optical absorptions of a series of MIL-125 MOFs, in which the 1,4-benzenedicarboxylate (BDC) linkers are modified by different types and amounts of chemical groups, including NH2, OH, and NO2. Our results indicate that new energy bands will appear in the band gap of pristine MIL-125 after introducing new group into BDC linker, but the components of these band gap states and the valence band edge position are sensitive to the type of functional group as well as the corresponding amount. Especially, only the incorporation of amino group can obviously decrease the band gap of MIL-125, and the further reduction of the band gap can be observed if the amount of NH2 is increased. Although MIL-125 functionalized by NH2 group exhibits relatively weak or no activity for the photocatalytic O2 evolution by splitting water, such ligand modification can effectively improve the efficiency in H2 production because now the optical absorption in the visible light region is significantly enhanced. Furthermore, the adsorption of water molecule becomes more favorable after introducing of amino group, which is also beneficial for the water-splitting reaction. The present study can provide theoretical insights to design new photocatalysts based on MIL-125.