Minireview of the Electrocatalytic Local Environment in Alkaline Hydrogen Evolution

Abstract: The electrocatalytic hydrogen evolution reaction (HER) in an alkaline environment is one of the most important energy conversion processes as a result of its fundamental value in studying a variety of electrocatalytic cathode reactions. However, the reaction mechanism of alkaline HER is still unclear, which challenges the improvement of the slow HER kinetics and the design of an efficient catalyst in a non-acidic environment. With the aid of the advanced operando characterizations and increasing simulation tec… Show more

“…The adsorption, configuration, and dynamic behavior of interfacial solvent molecules have a distinctive influence on the HOR. 392 This influence is underscored by observations such as Ni(OH) 2 on Pt(111), which were found to diminish the barrier for hydrogen adsorption in alkaline media. 85 This effect is attributed to the facilitation of the reorganization of interfacial water, thereby promoting more efficient charge transfer through the electric double layer (EDL) (Fig.…”

Hydrogen oxidation electrocatalysts for anion-exchange membrane fuel cells: activity descriptors, stability regulation, and perspectives

“…The adsorption, configuration, and dynamic behavior of interfacial solvent molecules have a distinctive influence on the HOR. 392 This influence is underscored by observations such as Ni(OH) 2 on Pt(111), which were found to diminish the barrier for hydrogen adsorption in alkaline media. 85 This effect is attributed to the facilitation of the reorganization of interfacial water, thereby promoting more efficient charge transfer through the electric double layer (EDL) (Fig.…”

Hydrogen oxidation electrocatalysts for anion-exchange membrane fuel cells: activity descriptors, stability regulation, and perspectives

“…The hydrogen evolution reaction (HER) and hydrogen oxidation reaction (HOR) in alkaline conditions are key electrochemical processes. Wang et al presented a thorough review on the reaction mechanism of the alkaline HER, emphasizing the latest understanding on how the electrocatalytic local environment determines the reaction kinetics. Ruthenium (Ru) has emerged as a possible replacement for platinum (Pt) for the HER and HOR in alkaline conditions.…”

2023 Pioneers in Energy Research: Shizhang Qiao

“…In recent years, electrocatalysis technology driven by green electricity under mild conditions has been widely introduced in energy conversion and storage including hydrogen evolution reaction (HER), , electrocatalytic CO 2 reduction (ECR), , and N 2 reduction reaction (NRR). , Notably, electrocatalytic CO 2 and N 2 reduction together in aqueous media at ambient conditions has emerged as a viable route for urea synthesis (N 2 + CO 2 + 6H + → CO­(NH 2 ) + H 2 O) . This strategy exhibits two primary advantages: (1) Water serves as a proton source, minimizing the requirement for harsh reagents.…”

Efficient Electrocatalytic Urea Formation from Gas Pollutants on Heteronuclear Dual-Metal Atom Anchored N-Doped Graphene