Engineered Superhydrophilic/Superaerophobic Catalyst: Two- Dimensional Co(OH)2-CeO2 Nanosheets Supported on Three- Dimensional Co Dendrites for Overall Water Splitting

Efficient electrocatalysts require not only a tunable electronic structure but also great active site accessibility and favorable mass transfer. Here, a two-dimensional/three-dimensional (2D/3D) hierarchical electrocatalyst consisting of Co(OH)2-CeO2 nanosheet-decorated Co dendrites is proposed, named as Co(OH)2-CeO2/Co. Based on the strong electronic interaction of the Co(OH)2-CeO2 heterojunction, the electronic structure of the Co site is optimized, which facilitates the adsorption of intermediates and the dissociation of H2O. Moreover, the open 2D/3D structure formed by introducing the Co substrate further reduces the accumulation of heterogeneous nanosheets and promotes the radial diffusion of the electrolyte, significantly improving the utilization of active sites and shortening the electron transfer pathway. In addition, the superhydrophilic/ superaerophobic interface achieved by constructing the hierarchical micro-nanostructure is beneficial to electrolyte infiltration and bubble desorption, thus ensuring favorable mass transfer. Therefore, Co(OH)2-CeO2/Co exhibits an excellent overall water splitting activity in alkaline solution.

Automated summary

A 2D/3D hierarchical electrocatalyst, Co(OH)2-CeO2/Co, consisting of Co(OH)2-CeO2 nanosheet-decorated Co dendrites, is proposed. The electronic structure of the Co site is optimized through the strong electronic interaction of the Co(OH)2-CeO2 heterojunction, facilitating intermediates adsorption and H2O dissociation. The open 2D/3D structure formed by introducing the Co substrate reduces nanosheet accumulation and promotes electrolyte diffusion, improving active site utilization and electron transfer pathway.