The development of abundant-element-based, cost-effective, and efficient catalysts for oxygen evolution reaction (OER) holds great promises to realize the practical water splitting. Herein, we report a facile phosphorylation treatment to boost the OER performance of NiCo metal organic frameworks (MOFs). Compared with the parent hollow bowl-like sphere NiCo-MOF, the optimal NiCo-MOF/Co2P2O7 had a lower overpotential of 408 mV at 50 mA cm(-2) and 583 mV at 200 mA cm(-2). The MOF/Co2P2O7 sample also demonstrated markedly superior long term durability for OER to the benchmark RuO2 catalyst. Such excellent performance can be attributed to the well-defined porous structure imparted enhanced reaction kinetics, the formation of phosphates with high oxygen content, and the synergistic catalytic effects of between Ni and Co. The findings here offer a new way in developing high-efficiency and durable MOF-based electrocatalysts for water splitting and beyond.

• Institution
  广东药学院