Add to ORKGThe electrodeposition of gold on highly oriented pyrolytic graphite (HOPG) from acid aqueous solutions was studied by using electrochemical techniques complemented with ex-situ scanning tunneling microscopy (STM). The kinetics of gold electrodeposition is consistent with a nucleation and three-dimensional growth process under diffusion control from the solution side. As the applied potential moves in the negative direction, the gold crystal density increases, and the crystal shape changes from a Euclidean to a dendritic fractal morphology. This transition can be assigned to the anisotropic surface diffusion of gold adatoms induced by the applied electric potential. A model including a potential-dependent energy barrier at step edges account...
The early stages of Pt electrodeposition (0.675-0.620 V vs RHE) on highly oriented pyrolytic graphit...
Structural changes of silver terrace domains in aqueous perchloric acid solution at constant anodic ...
Quasi-2d silver electrodeposits were grown electrochemically at constant potential from aqueous Ag+ ...
The electrodeposition of gold on highly oriented pyrolytic graphite (HOPG) from acid aqueous solutio...
The electrodeposition of gold on highly oriented pyrolytic graphite (HOPG) from acid aqueous solutio...
Scanning tunneling microscopy (STM) and conventional electrochemical techniques were utilized to inv...
Scanning tunneling microscopy (STM) and conventional electrochemical techniques were utilized to inv...
Au electrodeposition on C(0001) from aqueous solutions with different concentrations of AuCl3·HCl, a...
Gold electrodeposition on C(0001) from aqueous 0.5 mM AuCl3·HCl, in the range of apparent charge den...
The electrochemical formation of Au nanoparticles on a highly ordered pyrolytic graphite (HOPG) subs...
Rough columnar structured gold electrodeposits were prepared in aqueous 0.5 M M H2SO4 by electroredu...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The fractal dimension of the surface, Ds, of thin columnar gold electrodeposits (surface roughness f...
The early stages of Pt electrodeposition (0.675-0.620 V vs RHE) on highly oriented pyrolytic graphit...
Structural changes of silver terrace domains in aqueous perchloric acid solution at constant anodic ...
Quasi-2d silver electrodeposits were grown electrochemically at constant potential from aqueous Ag+ ...
The electrodeposition of gold on highly oriented pyrolytic graphite (HOPG) from acid aqueous solutio...
The electrodeposition of gold on highly oriented pyrolytic graphite (HOPG) from acid aqueous solutio...
Scanning tunneling microscopy (STM) and conventional electrochemical techniques were utilized to inv...
Scanning tunneling microscopy (STM) and conventional electrochemical techniques were utilized to inv...
Au electrodeposition on C(0001) from aqueous solutions with different concentrations of AuCl3·HCl, a...
Gold electrodeposition on C(0001) from aqueous 0.5 mM AuCl3·HCl, in the range of apparent charge den...
The electrochemical formation of Au nanoparticles on a highly ordered pyrolytic graphite (HOPG) subs...
Rough columnar structured gold electrodeposits were prepared in aqueous 0.5 M M H2SO4 by electroredu...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The morphological evolution of columnar gold electrodeposits grown at 100 nm s −1 by electroreducing...
The fractal dimension of the surface, Ds, of thin columnar gold electrodeposits (surface roughness f...
The early stages of Pt electrodeposition (0.675-0.620 V vs RHE) on highly oriented pyrolytic graphit...
Structural changes of silver terrace domains in aqueous perchloric acid solution at constant anodic ...
Quasi-2d silver electrodeposits were grown electrochemically at constant potential from aqueous Ag+ ...