Add to ORKGHere, we report room temperature growth of one-dimensional copper hydroxide, Cu(OH)2 nanostructures viz., nanoneedles (NNs), nanoleafs (NLs) and nanorods (NRs) from NaOH, LiOH and NaOH+LiOH aqueous elec-trolyte solutions, respectively, employing a simple and cost-effective chemical anodization process. Structural elucidation and morphological evolution studies are elaborated thoroughly. Morphology inspired evolution of specific capacitance is estimated using cyclic-voltammogram and discharge measurements wherein, due to a relatively higher total charges and the least charge transfer resistance, in electrode with NRs morphology paved remarkable electrochemical performance compared to electrodes of NNs and NLs morphologies
Typically, anodic oxidation of metals results in the formation of hexagonally arranged nanoporous or...
Nanostructure control is an important issue when using electroactive materials in energy conversion ...
Copper nanowires were fabricated by electrochemical deposition inside anodic alumina template anodiz...
Nanostructured copper compounds were grown by electrochemical anodization of copper foil in aqueous ...
Self-organized anodization of copper in 0.1 M Na2CO3 electrolyte was studied in order to obtain nano...
Copper based nanomaterials (Cu, Cu2O, CuO et al) have been broadly used in electrochemistry related ...
In this work, CuO samples with three different nanostructures, i.e., nanoflakes, nanoellipsoids, and...
International audienceNanostructure control is an important issue when using electroactive materials...
Copper foil was anodized in 1 M KOH at potentials ranging from −400 to −100 mV vs. Ag|AgCl electrode...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
Copper foil was anodized in 1 M KOH at potentials ranging from −400 to −100 mV vs. Ag|AgCl electrode...
Typically, anodic oxidation of metals results in the formation of hexagonally arranged nanoporous or...
Typically, anodic oxidation of metals results in the formation of hexagonally arranged nanoporous or...
Nanostructure control is an important issue when using electroactive materials in energy conversion ...
Copper nanowires were fabricated by electrochemical deposition inside anodic alumina template anodiz...
Nanostructured copper compounds were grown by electrochemical anodization of copper foil in aqueous ...
Self-organized anodization of copper in 0.1 M Na2CO3 electrolyte was studied in order to obtain nano...
Copper based nanomaterials (Cu, Cu2O, CuO et al) have been broadly used in electrochemistry related ...
In this work, CuO samples with three different nanostructures, i.e., nanoflakes, nanoellipsoids, and...
International audienceNanostructure control is an important issue when using electroactive materials...
Copper foil was anodized in 1 M KOH at potentials ranging from −400 to −100 mV vs. Ag|AgCl electrode...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
International audienceNanostructure control is an important issue when using electroactive materials...
Copper foil was anodized in 1 M KOH at potentials ranging from −400 to −100 mV vs. Ag|AgCl electrode...
Typically, anodic oxidation of metals results in the formation of hexagonally arranged nanoporous or...
Typically, anodic oxidation of metals results in the formation of hexagonally arranged nanoporous or...
Nanostructure control is an important issue when using electroactive materials in energy conversion ...
Copper nanowires were fabricated by electrochemical deposition inside anodic alumina template anodiz...