C<sub>7</sub>N<sub>6</sub>/Sc<sub>2</sub>CCl<sub>2</sub> Weak van der Waals Heterostructure: A Promising Visible-Light-Driven <i>Z</i>-Scheme Water Splitting Photocatalyst with Interface Ultrafast Carrier Recombination
Jie Meng, Jiajun Wang, Jiajun Wang, Jianing Wang, Jianing Wang, Qunxiang Li, Jinlong Yang
Abstract
Designing and characterizing high-efficiency direct Z-scheme photocatalysts both from theoretical and experimental aspects still remain a big challenge. Here, based on extensive first-principles calculations combined with excited state dynamics simulations, we report that a weak van der Waals (vdW) C7N6/Sc2CCl2 heterostructure is a mediator-free direct Z-scheme photocatalyst for solar water splitting. Theoretical results clearly reveal that this heterostructure displays a nice light-harvesting performance extending to the near-infrared region. The relatively strong interfacial non-adiabatic coupling accelerates the interlayer carrier recombination in the time scale of sub-picoseconds. The well separated electrons and holes with a strong redox capacity make the hydrogen evolution reaction spontaneously occur on the C7N6 surface and the oxygen evolution reaction on the Se-doped Sc2CCl2 surface, respectively, when the proposed heterostructure is radiated with solar light.