Add to ORKGThe electrodeposition of copper onto carbon substrate was studied in 0.5 M of CuSO4 solution at various applied voltages; 2.0, 4.8 and 6.0 V. The electrodeposition was carried in an electrochemical cell with copper as the anode and carbon as the cathode. The influence of electrodeposition parameters on the thickness of deposits and surface roughness of copper films were studied in detail using Atomic Force Microscopy (AFM). The current value increases with the increasing of applied voltage. Charge-discharge test was performed in 0.5 M and 1.0 M of HCl, and revealed that high concentration of electrolyte resulted high surface roughness and thickness of copper film.Â
Abstract: The effects of surface pretreatment of 304 stainless steel (SS) substrates on copper film ...
The nucleation mechanisms of copper during electrodeposition of thin films from sulfate solutions we...
A study was undertaken to determine the feasibility of using voltammetry and scanning electron micro...
The electrodeposition of copper onto carbon substrate was studied in 0.5 M of CuSO4 solution at vari...
AbstractCopper oxide thin films are being considered in thin film solar cells for its unique photovo...
In this study, electrodeposition of nano-crystalline copper coatings (ED-Cu) from the sulphate bath ...
The effect of electrolytic deposition parameters on the morphology of very thin (5 nm) copper layers...
Nucleation and growth mechanism can be classified into mass or diffusion controlled and charge or in...
The influence of different anode configurations on the growth mechanisms, transient currents and sur...
In the recent years, copper has been replacing aluminum to be widely used as the interconnect materi...
Copper coating was successfully deposited onto 304 stainless steel substrate from pH 8 EDTA solution...
Cathodic electrodeposition in the presence of sodium dodecyl-sulphate in aqueous solution was used t...
Three-dimensional (3D) copper nanostructured architectures were fabricated on a copper substrate usi...
SummaryCopper is the only one solid metal registered by the US Environmental Protection Agency as an...
Highly uniform, smooth and conformal coating of copper thin film have been investigated via electro ...
Abstract: The effects of surface pretreatment of 304 stainless steel (SS) substrates on copper film ...
The nucleation mechanisms of copper during electrodeposition of thin films from sulfate solutions we...
A study was undertaken to determine the feasibility of using voltammetry and scanning electron micro...
The electrodeposition of copper onto carbon substrate was studied in 0.5 M of CuSO4 solution at vari...
AbstractCopper oxide thin films are being considered in thin film solar cells for its unique photovo...
In this study, electrodeposition of nano-crystalline copper coatings (ED-Cu) from the sulphate bath ...
The effect of electrolytic deposition parameters on the morphology of very thin (5 nm) copper layers...
Nucleation and growth mechanism can be classified into mass or diffusion controlled and charge or in...
The influence of different anode configurations on the growth mechanisms, transient currents and sur...
In the recent years, copper has been replacing aluminum to be widely used as the interconnect materi...
Copper coating was successfully deposited onto 304 stainless steel substrate from pH 8 EDTA solution...
Cathodic electrodeposition in the presence of sodium dodecyl-sulphate in aqueous solution was used t...
Three-dimensional (3D) copper nanostructured architectures were fabricated on a copper substrate usi...
SummaryCopper is the only one solid metal registered by the US Environmental Protection Agency as an...
Highly uniform, smooth and conformal coating of copper thin film have been investigated via electro ...
Abstract: The effects of surface pretreatment of 304 stainless steel (SS) substrates on copper film ...
The nucleation mechanisms of copper during electrodeposition of thin films from sulfate solutions we...
A study was undertaken to determine the feasibility of using voltammetry and scanning electron micro...