A Novel Metal–Organic Framework Intermediated Synthesis of Heterogeneous CoS<sub>2</sub>/CoS Porous Nanosheets for Enhanced Oxygen Evolution Reaction
Xiaoyue Hu, Pengfei Tan, Rui Dong, Min Jiang, Lili Lü, Yuan Wang, Hongqin Liu, Yong Liu, Jianping Xie, Jun Pan
Abstract
Designing and constructing transition metal sulfides (TMSs) as oxygen evolution reaction (OER) electrocatalysts has been attracting increasing attention. Interface engineering can effectively modify the active sites and promote electron transfer, resulting in improvement of electrocatalytic performance. Here, freestanding heterogeneous CoS 2 /CoS nanosheets are prepared via a simple one‐step sintering process from a kind of novel hierarchical tremella‐like metal–organic framework (MOF). The formation mechanism of the unique MOF and the heterojunctions between CoS 2 and CoS is analyzed. Consequently, the prepared cost‐effective OER electrocatalyst achieves satisfying electrocatalytic efficiencies with a diminutive overpotential of 269 mV at 10 mA cm −2 current density, a small Tafel slope of 52 mV dec −1 , and good stability in alkaline solution comparable to RuO 2 counterparts. This work opens up a new method for constructing 2D electrocatalysts containing catalytic interfaces with boosted OER performance.