Corrigendum to “Bimetallic Pd-Based surface alloys promote electrochemical oxidation of formic acid: Mechanism, kinetics and descriptor” [J. Power Sources 451 (2020) 227830]

“…The reduction of the hydrogenation product CO 2 has the highest barrier of 1.17 eV, on the other hand, direct dehydration of HCOOH has an energy barrier of 0.41 eV [57] . A recent study by Sui et al [62] . have examined the fundamentals of electrochemical oxidation of formic acid on a variety of Pd‐based surface alloys.…”

“…Previous efforts in improving FAOR efficiency mainly focused on (1) modifying the electronic structure of palladium/platinum with other elements (for example, gold, bismuth, copper, nickel and tin), (2) controlling the shape and exposed facets of palladium/platinum nanocrystals and (3) fabricating hollow/framed/ultrathin high‐specific‐area palladium/platinum nanostructures. The enhancement effect in the binary catalysts generally results from (1) steric or ensemble or geometric effect [125–127] (2) electronic effect [72,99,128] (3) bifunctional mechanism (synergic effect) [41,62,129] . However, the prevalence and the extent of these effects in an electrocatalyst depend chemical nature of the adatom, morphology and structure, chemical composition and particle size distribution.…”

Recent Advances in Anode Electrocatalysts for Direct Formic Acid Fuel Cells – Part I – Fundamentals and Pd Based Catalysts

“…The reduction of the hydrogenation product CO 2 has the highest barrier of 1.17 eV, on the other hand, direct dehydration of HCOOH has an energy barrier of 0.41 eV [57] . A recent study by Sui et al [62] . have examined the fundamentals of electrochemical oxidation of formic acid on a variety of Pd‐based surface alloys.…”

“…Previous efforts in improving FAOR efficiency mainly focused on (1) modifying the electronic structure of palladium/platinum with other elements (for example, gold, bismuth, copper, nickel and tin), (2) controlling the shape and exposed facets of palladium/platinum nanocrystals and (3) fabricating hollow/framed/ultrathin high‐specific‐area palladium/platinum nanostructures. The enhancement effect in the binary catalysts generally results from (1) steric or ensemble or geometric effect [125–127] (2) electronic effect [72,99,128] (3) bifunctional mechanism (synergic effect) [41,62,129] . However, the prevalence and the extent of these effects in an electrocatalyst depend chemical nature of the adatom, morphology and structure, chemical composition and particle size distribution.…”

Recent Advances in Anode Electrocatalysts for Direct Formic Acid Fuel Cells – Part I – Fundamentals and Pd Based Catalysts