P‐Induced Permeation of Nickel into WO 3 Octahedra to Form a Synergistic Catalyst for Urea Oxidation**

Abstract Small‐molecule induction can lead to the oriented migration of metal elements, which affords functional materials with synergistic components. In this study, phosphating nickel foam (NF)‐supported octahedral WO 3 with phosphine affords P‐WO 3 /NF electrocatalyst. Ni is found to form Ni−P bonds that migrate from NF to WO 3 under the induction of P, resulting in the complex oxides W 1.3 Ni 0.24 O 4 and Ni 2 P 2 O 7 in the particle interior and nickel phosphide on the octahedral grain surface. The catalytic activity of P‐WO 3 /NF in the urea oxidation reaction (UOR) is improved by synergistic action of the components in the synthesized hybrid particles. A current density of 10 mA cm −2 can be reached at a potential of 1.305 V, the double layer capacitance of the catalyst is significantly increased, and the electron transfer impedance in catalytic UOR is reduced. This work demonstrates that small‐molecule induction is suitable for constructing co‐catalysts with complex components in a simple protocol, which provides a new route for the design of highly efficient urea oxidation electrocatalysts.