Modifying titanium dioxide (TiO2) with graphdiyne (Gry) makes that the absorption
range of UV-vis-nIR spectrum expands in visible light area. However, in traditional
methods, the two materials are combined by hydrothermal process. In this paper, in-situ
synthesis, which monomer directly polymerizes on the surface of TiO2 instead that
polymer and TiO2 combined by hydrothermal method, is employed to get hybrid materials.
In the process, TiO2 thin film was deposited on the glass slide followed by being
enfolded in copper (Cu) foil to initiate polymerization and synthesize Gry on the
surface of TiO2 directly. It turns out that with co-catalyst Platinum (Pt) the efficiency
of TiO2-Gry with introduction of only 1.9 wt% Gry is 12.6% higher than the efficiency
of TiO2 under same test conditions. The improvement is attributed to band structure
of the combined material and efficiency of charge transfer. In this system, Gry acts
as an excellent medium for charge transfer, which benefits from its intrinsic property
and effective contact with TiO2 by this synthesis. The work points out a new way to
get well-combined platelike photocatalyst on transparent substrate. It gives a promising
prospect for practical photocatalysis in the future that the quantity and mass ratio
of combined materials can be recorded and modified. (C)& nbsp;2022 Hydrogen Energy
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