Abstract

Abstract The serious shuttle effect, sluggish reduction kinetics of polysulfides and the difficult oxidation reaction of Li 2 S have hindered LiS battery practical application. Herein, a 3D hierarchical structure composed of NiMoO 4 nanosheets in situ anchored on NS doped carbon clothes (NiMoO 4 @NSCC) as the free‐standing host is creatively designed and constructed for LiS battery. Dual transitional metal oxide (NiMoO 4 ) increases the electrons density near the Fermi level due to the contribution of the incorporating molybdenum (Mo), leading to the smaller bandgap, and thus stronger metallic properties compared with NiO. Furthermore, as a bidirectional catalyst, NiMoO 4 is proposed to facilitate reductions of polysulfides through lengthening the SS bond distance of Li 2 S 4 and reducing the free energy of polysulfides conversion, meanwhile promote critical oxidation of insulative discharge product (Li 2 S) via lengthening LiS bond distance of Li 2 S and decreasing Li 2 S decomposition barrier. Therefore, after loading sulfur (2 mg cm −2 ), NiMoO 4 @NSCC/S as the self‐supporting cathode for the LiS battery exhibits impressive long cycle stability. This study proposes a concept of a bidirectional catalyst with dual metal oxides, which would supply a novel vision to construct the high‐performance LiS battery.