Study of the Electroless Deposition of Pd on Cu-Modified Graphite Electrodes by Metal Exchange Reaction

Abstract: The electroless deposition of Pd on Cu-modified graphite electrodes using a metal exchange reaction was investigated. The modification procedure consisted in the electrodeposition of Cu on the graphite electrode, subsequently replaced by Pd at open circuit in a Pd-containing solution. The influence of experimental conditions on the exchange reaction rate, the chemical state and the distribution of Cu and Pd on the electrode surface are highlighted. The resulting deposits were studied using cyclic voltammetry, … Show more

“…The reduction peak located at a potential in the range −0.19 to −0.27 V, and moving to more negative potential values as E A becomes more positive, is due to the reduction of Pd surface oxides [20], formed during the anodic sweep, to metallic Pd. Its intensity markedly increases as E A becomes more positive, in agreement with the results in the literature [26][27][28]. The Pd oxides reduction charge (Q PdO ) was used to quantify the surface area of Pd deposits by comparing it to the reduction charge measured with a smooth Pd electrode (Q°P dO ).…”

Preparation of Pd-Modified Ni Foam Electrodes and Their Use as Anodes for the Oxidation of Alcohols in Basic Media

“…The reduction peak located at a potential in the range −0.19 to −0.27 V, and moving to more negative potential values as E A becomes more positive, is due to the reduction of Pd surface oxides [20], formed during the anodic sweep, to metallic Pd. Its intensity markedly increases as E A becomes more positive, in agreement with the results in the literature [26][27][28]. The Pd oxides reduction charge (Q PdO ) was used to quantify the surface area of Pd deposits by comparing it to the reduction charge measured with a smooth Pd electrode (Q°P dO ).…”

Preparation of Pd-Modified Ni Foam Electrodes and Their Use as Anodes for the Oxidation of Alcohols in Basic Media

“…Among these materials, copper is known as the best promoter for nitrate electroreduction by producing ammonia and nitrite [12,13] depending on the electrode potential. Bimetallic Cu-Pd electrodes also showed interesting electrocatalytic properties with a good selectivity toward nitrate electroreduction to nitrogen [17][18][19]. However, the Pd/Cu surface ratio and the electrode potential have to be accurately controlled otherwise nitrite or ammonia will be produced.…”

Optimization of the cathode material for nitrate removal by a paired electrolysis process

“…Compared to Cu (0), the peaks of Cu are also found negative shift [35]. This is similar to metallic Pt of stars-like PtCu, further suggesting the interaction between stars-like PtCu and G. Moreover, The broad peak at ca 940 eV is still discernible and indicates the presence of Cu oxidized species [37] near the surface, but larger quantity of Cu is composed of metallic Cu. Fig.…”

Star-like PtCu nanoparticles supported on graphene with superior activity for methanol electro-oxidation