Abstract

Structure design of heterojunction photocatalysts is highly desirable for making full use abilities of each component and junction. Herein, we designed a one-pot in-situ top-down and bottom-up combination strategy to construct novel 0D/1D ordered [email protected](OH)3 heterostructure derived from [email protected]3 using high-temperature hydrothermal treatment. The 0D/1D [email protected](OH)3 heterostructure had better charge transport capability than its single component and the corresponding mechanical mixture. Furthermore, [email protected](OH)3 and g-C3N4 self-assembled into 0D/1D/2D [email protected](OH)3/g-C3N4 ternary hierarchical heterostructure photocatalyst by electrostatic interaction. The synergistic effect of 0D/1D/2D architecture and ternary heterojunction boost the internal separation and interface transmission of its photocarriers. Therefore, the obtained 0D/1D/2D [email protected](OH)3/g-C3N4 ternary photocatalyst exhibited significantly enhanced photocatalytic H2 evolution activity, comparable to related g-C3N4-based photocatalysts. This work enriches our insight into designing novel hierarchical heterostructure catalysts.