Abstract
Background: Renewable energy is an interesting way to decrease the influence of global warming effect but unstable energy output is the key problem that has to be overcome. To develop an energy storage system is thus an important way for industrial application. Methods: Powders of spherical-like nickel oxide (NiO)/rod-like tri-cobalt tetra-oxide (Co3O4) were obtained using co-precipitation method and then elemental sulphur was doping into samples under sulfurization process. These S-doped samples attached onto carbon powders were coated onto Ni-foams as air-cathodes of our homemade Zn-metal/air energy storage systems for further tests. Significant findings: The samples showed lower XRD peak intensities and uniform S element distribution in S-incorporated NiO/Co3O4 electrocatalysts with an increase in S-doping ratio after sulfurization. Sample with S content of 2.09 % on air-cathode in our homemade battery showed the best electrochemical performance, which exhibited the lowest charge/discharge voltage difference value of 0.73–0.76 V and specific energy capacity of around 766.71 mA-h/g-Zn at constant discharge current density of 10 mA/cm2. In the electrochemical impedance spectra of samples, high carrier concentration and low charge transfer resistance of the sample with S content of 2.09 % made it have the best electrochemical performance and stability in electrolyte.
Original language | English |
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Article number | 105924 |
Journal | Journal of the Taiwan Institute of Chemical Engineers |
Volume | 168 |
DOIs | |
State | Published - 03 2025 |
Bibliographical note
Publisher Copyright:© 2024 Taiwan Institute of Chemical Engineers
Keywords
- Co-precipitation
- Sulphur doping
- Transition-metal oxide
- Zinc-air battery