In response to the pressing global climate crisis, the quest for sustainable energy alternatives has intensified, with hydrogen emerging as a leading contender due to its clean and renewable nature. This study explores the enhancement of hydrogen storage capacity using novel nanoelectrodes, specifically Cu-Fe-MWCNT and Cu-Co-MWCNT, as negative electrodes. The synthesis of these nanoelectrodes was achieved through an electrodeposition process, and their structural and compositional properties were examined using X-ray diffraction (XRD), Energy-dispersive X-ray spectrum (EDX), and scanning electron microscopy (SEM). The hydrogen storage capabilities of these materials were assessed via chronopotentiometry. The findings reveal that the Fe/MWCNT nanocomposite electrode offers improved stability and efficiency in hydrogen storage compared to the Co/MWCNT electrode, suggesting its potential as a superior material for electrochemical hydrogen storage applications. This research contributes to the advancement of hydrogen storage technologies and supports the role of hydrogen in the sustainable energy ecosystem.
Seifi Elmi,S , Mohammadi,L , Malmir,M , Javanmard,F and Varshoy,S . (2025). Enhancing hydrogen storage capacity using Fe-MWCNT and Co-MWCNT nanoelectrodes. Iranian Journal of Physics Research, 25(3), 159-163. doi: 10.47176/ijpr.25.3.12001
MLA
Seifi Elmi,S , , Mohammadi,L , , Malmir,M , , Javanmard,F , and Varshoy,S . "Enhancing hydrogen storage capacity using Fe-MWCNT and Co-MWCNT nanoelectrodes", Iranian Journal of Physics Research, 25, 3, 2025, 159-163. doi: 10.47176/ijpr.25.3.12001
HARVARD
Seifi Elmi S, Mohammadi L, Malmir M, Javanmard F, Varshoy S. (2025). 'Enhancing hydrogen storage capacity using Fe-MWCNT and Co-MWCNT nanoelectrodes', Iranian Journal of Physics Research, 25(3), pp. 159-163. doi: 10.47176/ijpr.25.3.12001
CHICAGO
S Seifi Elmi, L Mohammadi, M Malmir, F Javanmard and S Varshoy, "Enhancing hydrogen storage capacity using Fe-MWCNT and Co-MWCNT nanoelectrodes," Iranian Journal of Physics Research, 25 3 (2025): 159-163, doi: 10.47176/ijpr.25.3.12001
VANCOUVER
Seifi Elmi S, Mohammadi L, Malmir M, Javanmard F, Varshoy S. Enhancing hydrogen storage capacity using Fe-MWCNT and Co-MWCNT nanoelectrodes. Iranian Journal of Physics Research. 2025;25(3):159-163 (In Persian). doi: 10.47176/ijpr.25.3.12001