WS₂ nanoflakes from nanotubes for electrocatalysis

Next-generation catalysts for water splitting are crucial towards a renewable hydrogen economy. MoS₂ and WS₂ represent earth-abundant, noble metal cathode alternatives with high catalytic activity at edge sites. One challenge in their development is to nanostructure these materials in order to achieve increased performance through the creation of additional edge sites. In this work, we demonstrate a simple route to form nanostructured-WS₂ using sonochemical exfoliation to break interlayer and intralayer bonds in WS₂ nanotubes. The resulting few-layer nanoflakes are ~100 nm wide with a high density of edge sites. WS₂ nanoflakes are utilized as cathodes for the hydrogen evolution reaction (HER) and exhibit superior performance to WS₂ nanotubes and bulk particles, with a lower onset potential, shallower Tafel slope and increased current density. Future work may employ ultra-small nanoflakes, dopant atoms, or graphene hybrids to further improve electrocatalytic activity.