The growth of copper (Cu) nanowires by electroless deposition in aqueous solution at 60-80 °C was studied from an electrochemical perspective using in situ mixed potential measurements and potential-pH diagrams. Scanning Electron Microscopy (SEM) showed that thick and short nanowires were obtained at high temperatures, while long and thin nanowires result from low reaction temperatures. In situ mixed potential measurements reveal that Cu(II) reduction is more favored at higher reaction temperatures, hastening the reduction reaction. The fast reaction leads to a high concentration of Cu atoms in the solution. As a result, Cu deposition occurs rapidly, such that they attached on both sides and ends of the primary Cu nanowires. This results to...
We report a solution-phase approach to the synthesis of crystalline copper nanowires (Cu NWs) with a...
Arrays of Cu/Cu/sub 2/O nanowires were grown by electrodeposition in the nanopores of track-etched p...
Owing to a recent push toward one-dimensional nanomaterials, in this study, we report a seed-mediate...
The growth of copper (Cu) nanowires by electroless deposition in aqueous solution at 60-80 °C was st...
ABSTRACT: This Letter shows that copper nanowires grow through the diffusion-controlled reduction of...
While high-aspect-ratio metal nanowires are essential for producing nanowire-based electrodes of goo...
Large-scale copper nanowires have been fabricated by potentiostatic electro-chemical deposition (ECD...
Cu metal nanostructures have attracted wide interest of study as catalysts for CO2 reduction re...
Abstract The effects of the applied voltage and temperature on growth of Cu micro‐ and nanowires ele...
Cu nanowires (CuNWs) were synthesized in an aqueous solution at low temperature using ethylenediamin...
As regards the copper oxide nanowire growth process, our experiment was consistent with the proposal...
Electrodeposition is an efficient and economical approach for template synthesis of one-dimensional ...
Large arrays of aligned copper oxide nanowires were produced by electrodeposition, using anodic alum...
Long (15 - 40 μm), thin (diameter of 20 ± 5 nm), and well-dispersed CuNWs Cu nanowires were prepared...
Cu films with high mechanical strength and low electrical resistivity are required in various indust...
We report a solution-phase approach to the synthesis of crystalline copper nanowires (Cu NWs) with a...
Arrays of Cu/Cu/sub 2/O nanowires were grown by electrodeposition in the nanopores of track-etched p...
Owing to a recent push toward one-dimensional nanomaterials, in this study, we report a seed-mediate...
The growth of copper (Cu) nanowires by electroless deposition in aqueous solution at 60-80 °C was st...
ABSTRACT: This Letter shows that copper nanowires grow through the diffusion-controlled reduction of...
While high-aspect-ratio metal nanowires are essential for producing nanowire-based electrodes of goo...
Large-scale copper nanowires have been fabricated by potentiostatic electro-chemical deposition (ECD...
Cu metal nanostructures have attracted wide interest of study as catalysts for CO2 reduction re...
Abstract The effects of the applied voltage and temperature on growth of Cu micro‐ and nanowires ele...
Cu nanowires (CuNWs) were synthesized in an aqueous solution at low temperature using ethylenediamin...
As regards the copper oxide nanowire growth process, our experiment was consistent with the proposal...
Electrodeposition is an efficient and economical approach for template synthesis of one-dimensional ...
Large arrays of aligned copper oxide nanowires were produced by electrodeposition, using anodic alum...
Long (15 - 40 μm), thin (diameter of 20 ± 5 nm), and well-dispersed CuNWs Cu nanowires were prepared...
Cu films with high mechanical strength and low electrical resistivity are required in various indust...
We report a solution-phase approach to the synthesis of crystalline copper nanowires (Cu NWs) with a...
Arrays of Cu/Cu/sub 2/O nanowires were grown by electrodeposition in the nanopores of track-etched p...
Owing to a recent push toward one-dimensional nanomaterials, in this study, we report a seed-mediate...