“…[1][2][3] These properties depend greatly on the morphologies and dimensions of the prepared materials, 4 making these materials feasibly useful in various applications, such as dye removal from wastewater, 5 energy conversion and storage, 6 rechargeable lithium-ion batteries, 7 hydrogen evolution, 8,9 and photocatalysts. 10 Metal sulde nanostructures with controllable nanoshapes, such as particles, wires, sheets, akes, 11 hollow spheres, 12 and coreshell structures, 13 have been regarded as potential cost-effective, chemically stable, and nontoxic semiconducting materials for catalytic applications. 8,14,15 Spherical structures are a type of functional material that has a high surface area and small charge transport lengths.…”