vents, have been extensively studied.[10,11]MOF-74 materials consist of 11 Å-wide 1D hexagonal channels, which is beneficial to improve electrolyte permeability and reduce steric hindrance for fast electron transfer.[12,13] Furthermore, MOF-74 materials have a high density of potential open metal sites in the framework, and the unique advantage can replace metal nodes without destroying the basic framework structure of MOF crystals, which makes it promising to design stable bi/multimetallic MOF topologies.[14] However, obtaining MOF-74 materials with high capacity and high energy density remains a challenge due to the limitation of the single metal active site