A Green Synthesis Strategy for Cobalt Phosphide Deposited on N, P Co-Doped Graphene for Efficient Hydrogen Evolution

Abstract: The exploitation of electrocatalysts with high activity and durability for the hydrogen evolution reaction is significant but also challenging for future energy systems. Transition metal phosphides (TMPs) have attracted a lot of attention due to their effective activity for the hydrogen evolution reaction, but the complicated preparation of metal phosphides remains a bottleneck. In this study, a green fabrication method is designed and proposed to construct N, P co-doped graphene (NPG)-supported cobalt phosphi… Show more

“…Electrochemical water splitting coupled with renewable energy sources is one of the most efficient and promising methods for green hydrogen production [1][2][3], which could tackle both the energy crisis and environmental pollution problems. The anode half reaction of water splitting is an oxygen evolution reaction (OER), which is very energy consuming, limits hydrogen production efficiency and determines the cost of hydrogen production via water splitting.…”

Progress on Noble-Metal-Free Organic–Inorganic Hybrids for Electrochemical Water Oxidation

“…Electrochemical water splitting coupled with renewable energy sources is one of the most efficient and promising methods for green hydrogen production [1][2][3], which could tackle both the energy crisis and environmental pollution problems. The anode half reaction of water splitting is an oxygen evolution reaction (OER), which is very energy consuming, limits hydrogen production efficiency and determines the cost of hydrogen production via water splitting.…”

Progress on Noble-Metal-Free Organic–Inorganic Hybrids for Electrochemical Water Oxidation

Iron phosphide nanoparticles anchored on 3D nitrogen-doped graphene as an efficient electrocatalysts for hydrogen evolution reaction in alkaline media

Heat-induced aliquation and phosphating of nickel as efficient catalysts for hydrogen evolution in alkaline seawater