Dual-Modification Engineering of CoNi Alloy Realizing Robust Performance for Electrocatalytic Hydrogen Production

Abstract: Anion modification and trace metal doping have been widely demonstrated to have unique advantages in regulating both electrocatalytic activity and the electronic structure of non-precious metal materials. Developing a simple and practical preparation strategy is critical, but it still faces challenges. In this paper, a novel type of dual-modification approach is put forward to rationally design the S, Pt-CoNi material, which can be grown directly on the nickel foam (NF) in a one-step electrodeposition process.… Show more

“…Indeed, this performance is significantly higher than that of reported systems with glycerol. 41–44 The bimetallic combinations (NiCo, NiMn, and CoMn), as well as monometallic component (Ni, Co, and Mn) electrodes, were also prepared and tested (Fig. S8†).…”

Design of Bi-functional mixed oxide electrodes for selective oxidative C–C cleavage of glycerol to formate and synchronized green hydrogen production

“…Indeed, this performance is significantly higher than that of reported systems with glycerol. 41–44 The bimetallic combinations (NiCo, NiMn, and CoMn), as well as monometallic component (Ni, Co, and Mn) electrodes, were also prepared and tested (Fig. S8†).…”

Design of Bi-functional mixed oxide electrodes for selective oxidative C–C cleavage of glycerol to formate and synchronized green hydrogen production