Space-confined ultrafine Co 4 N nanodots within an N-doped carbon framework on carbon cloth for highly efficient universal pH overall water splitting

Electrocatalysts with high efficiency and stability for water splitting over a broad pH range are highly desirable but difficult to synthesize. Herein, we synthesized ultrafine Co 4 N nanodots anchored to the surface of an N-doped carbon framework (Co 4 N@NC) via a new space-restricted strategy. The key to this method is the design of a task-specific deep eutectic solvent precursor, which ultimately forms ultrafine Co 4 N nanodots that are anchored to the surface of NC framework by hydrogen bonding interactions between the components. The formation of a new Co-C bond at the interface of Co 4 N@NC expedites the electron transfer and optimizes the adsorption/desorption energies. Co 4 N@NC demonstrates excellent electrocatalytic water splitting activity at all pH values, requiring only 1.47 (0.5 mol L −1 H 2 SO 4 ), 1.48 (1.0 mol L −1 KOH), and 1.61 V (1.0 mol L −1 PBS) to reach 10 mA cm −2 current density. This study provides theoretical guidance for the systematic design of electrocatalysts with excellent stability in various electrolytes.