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Preparation of β N-i (OH)<sub>2</sub> aohe-oiNnsetMdfieid ieid Glassy Carbon for Pseudocapacitorsopen accessPreparation of β N-i (OH)2 aohe-oiNnsetMdfieid ieid Glassy Carbon for Pseudocapacitors

Other Titles
Preparation of β N-i (OH)2 aohe-oiNnsetMdfieid ieid Glassy Carbon for Pseudocapacitors
Authors
Putra, Muhammad Buchari SetiaAliyah, AliyahSanjaya, Afiten RahminPramadewandaru, Respati KevinChung, HoeilIvandini, Tribidasari Anggraningrum
Issue Date
Jun-2024
Publisher
Universitas Indonesia
Keywords
energy storage; glassy carbo; pseudocapacitor; surface modification; beta-Ni(OH)(2)
Citation
Makara Journal of Science, v.28, no.2, pp 174 - 184
Pages
11
Indexed
SCOPUS
ESCI
Journal Title
Makara Journal of Science
Volume
28
Number
2
Start Page
174
End Page
184
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211792
DOI
10.7454/mss.v28i2.2262
ISSN
2339-1995
2356-0851
Abstract
beta-Nickel hydroxide (Ni(OH)(2)) nanosheet-modified glassy carbon for pseudocapacitors was successfully prepared. The nanosheets were synthesized via a conventional growth seeding method combined with hydrothermal treatment. Transmission electron microscopy (TEM) characterization indicated the hexagonal structure of the nanosheets of around 15 nm in size, and X-ray diffraction (XRD) pattern confirmed the beta-phase lattice crystal. These nanosheets used to modify the glassy carbon surface, increased the electroactive surface area by around 15 times. Furthermore, electrochemical investigation of the modified glassy carbon revealed an excellent performance and a specific capacitance of 628.01 F g(-1) at a 1 A g(-1) current density. Moreover, an outstanding stability was demonstrated, with 89.9% retention of the capacitance observed after 3000 cycles at a 1 A g(-1) current density.
β-Nickel hydroxide (Ni(OH)2) nanosheet–modified glassy carbon for pseudocapacitors was successfully prepared. The nanosheets were synthesized via a conventional growth seeding method combined with hydrothermal treatment. Transmission electron microscopy (TEM) characterization indicated the hexagonal structure of the nanosheets of around 15 nm in size, and X-ray diffraction (XRD) pattern confirmed the β-phase lattice crystal. These nanosheets used to modify the glassy carbon surface, increased the electroactive surface area by around 15 times. Furthermore, electrochemical investigation of the modified glassy carbon revealed an excellent performance and a specific capacitance of 628.01 F g−1 at a 1 A g−1 current density. Moreover, an outstanding stability was demonstrated, with 89.9% retention of the capacitance observed after 3000 cycles at a 1 A g−1 current density.
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