Abstract
One-dimensional (1D) nanostructures, such as nanotubes, nanopores, nanodots and nanocones, are characterized by better catalytic properties than bulk material due to their large active surface area and small geometrical size. These structures can be produced by several methods of synthesis including the one- and two-step methods. In the one-step method, a crystal modifier is added to the solution in order to limit the horizontal direction of structures growing during electrodeposition. In this work, NH4Cl was used as a crystal modifier. Another way of production of 1D nanocones is the electrodeposition of metal in porous anodic alumina oxide (AAO) templates, called the two-step method. In this case, the AAO template was obtained using a two-step anodization process. Nanocones obtained by the two-step method show smaller geometrical size. In this work, cobalt nanoconical structures were obtained from an electrolyte containing CoCl2 and H3BO3. The electrocatalytic properties of materials fabricated by one-step and two-step methods were measured in 1 M NaOH and compared with bulk material electrodeposited from the same electrolyte. There were several microshell structures in the case of Co deposits obtained by the one-step method. To solve this problem, different conditions of synthesis Co cones by the one-step method were applied. The electrocatalytic activity of these samples was checked as well.
Highlights
One-dimensional (1D) nanostructures are characterized by two nanometric dimensions in three perpendicular directions [1]
In recent years shape control of micro- and nanomaterials has been developed due to their unique properties. 1D materials can be synthesized using several methods such as electrodeposition with crystal modifiers [2], electrodepositon in a template produced by two-step anodization [3,4], hydrothermal reduction [5], sol-gel [6], laser ablation [7], nanoimprint lithography [8], etc
The results show that for the sample obtained by one-step method B the hydrogen evolution reaction started at a less negative potential than for the previous sample produced by the same method
Summary
One-dimensional (1D) nanostructures are characterized by two nanometric dimensions in three perpendicular directions [1]. In recent years shape control of micro- and nanomaterials has been developed due to their unique properties. 1D materials can be synthesized using several methods such as electrodeposition with crystal modifiers [2], electrodepositon in a template produced by two-step anodization [3,4], hydrothermal reduction [5], sol-gel [6], laser ablation [7], nanoimprint lithography [8], etc. The electrodeposition method is a simple and low-cost process for coating fabrication. It allows obtaining composites [9]. The coatings morphology can be controlled by changing process parameters [10,11]. It is possible to cover large areas and complex-shaped surfaces using this method
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