Directly seeding epitaxial growth of tungsten oxides/tungsten diselenide mixed-dimensional heterostructures with excellent optical properties

Mixed-dimensional heterostructures have drawn significant attention due to their intriguing physical properties and potential applications in electronic and optoelectronic nanodevices. However, limited by the lattice matching, the preparation of heterostructures is experimentally difficult and the underlying growth mechanism has not been well established. Here, we report a three-step seeding epitaxial growth strategy for synthesizing mixed-dimensional heterostructures of one-dimensional microwire (MW) and two-dimensional atomic thin film. Our growth strategy has successfully realized direct epitaxial growth of WSe(2) film on WO(x) MW and significantly improves the quality of the epitaxial WSe(2) monolayer, which is evidenced by the remarkably enhanced photoluminescence (PL). More intriguingly, the as-synthesized WO(x) MWs exhibit a strong nonlinear optical response due to the enhancement effect of the core (WO(x))-shell (WSe(2)) nanocavity. Our work provides a feasible route for direct growth of WO(x)-based mixed-dimensional heterostructures, which possess potential applications in high-performance optoelectronic devices.