2023
DOI: 10.1021/acsomega.3c00573
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Intrinsic Properties of GO/RGO Bilayer Electrodes Dictate Their Inter-/Intralayer Intractability to Modulate Their Capacitance Performance

Abstract: The demand for high-capacity energy storage along with high power output and faster charging has made supercapacitors a key area of energy research. The charge storage capacity of capacitors is largely dependent on the electrode materials utilized. To that end, graphene oxide (GO) and reduced GO (RGO) have been extensively employed for preparing supercapacitors. However, to date, no study has reported utilizing a GO/RGO bilayer electrode material for supercapacitor application. Herein, we report the synthesis … Show more

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Cited by 10 publications
(3 citation statements)
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“…(c) HOMO-LUMO molecular orbitals for the optimized structures of various electrodes using DFT. (d) HOMO-LUMO molecular orbitals for the optimized structures of various electrodes with K + and Cl − ions using the COSMO solvation system (reproduced from [136]). Copyright 2023, The American Chemical Society.…”
Section: Simulation Studiesmentioning
confidence: 99%
See 1 more Smart Citation
“…(c) HOMO-LUMO molecular orbitals for the optimized structures of various electrodes using DFT. (d) HOMO-LUMO molecular orbitals for the optimized structures of various electrodes with K + and Cl − ions using the COSMO solvation system (reproduced from [136]). Copyright 2023, The American Chemical Society.…”
Section: Simulation Studiesmentioning
confidence: 99%
“…The simulation studies determined that N-doped graphene (CQ = 0) and epoxide-hydroxyl-treated graphene (CQ = 34.6 µF cm −2 ) could potentially serve as positive and negative electrodes, respectively, in an asymmetric supercapacitor, based on their respective CQ values. Islam et al recently employed DFT simulation to examine the electronic structure of single-layer (GO/rGO) and double-layer (rGO-GO, rGO-rGO, GO-GO, and GO-rGO) screen-printed electrodes by analyzing their highest occupied molecular orbital (HOMO) and highest occupied molecular orbital (LUMO) energy gaps [136]. The energy gap of HOMO and LUMO was discovered to be greater in a double-layer screen-primed electrode than in a single layer, as shown in Figure 10c.…”
Section: Simulation Studiesmentioning
confidence: 99%
“…The result is a SC that can respond rapidly to demands for energy, making it an ideal choice for applications where quick power delivery is critical. 64,176–180 Another significant effect of GO on SCs is enhanced stability and durability. The robust nature of GO prevents electrode degradation over extended charge and discharge cycles.…”
Section: The Effect Of Go On Sc Performancementioning
confidence: 99%