2010
DOI: 10.1016/j.jpowsour.2010.03.093
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Capacitance decay of nanoporous nickel hydroxide

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Cited by 157 publications
(98 citation statements)
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“…This enhancement may be attributed to the high surface area, high electrical conductivity, good flexibility and light weight of the low defect density graphene sheets. As mentioned earlier, the decrease in capacitance of Ni(OH) 2 is mainly due to the phase transformation and microstructural changes during electrochemical cycling [6]. Actually, we indeed find the as-prepared α-Ni(OH) 2 has transformed into the β-phase (JPCDS 14-0117) after electrochemical cycling (the XRD pattern of the product after 2000 cycles is shown in Fig.…”
Section: Nanosheets Increases From Less Than One Micrometer (Figs 2(supporting
confidence: 77%
See 1 more Smart Citation
“…This enhancement may be attributed to the high surface area, high electrical conductivity, good flexibility and light weight of the low defect density graphene sheets. As mentioned earlier, the decrease in capacitance of Ni(OH) 2 is mainly due to the phase transformation and microstructural changes during electrochemical cycling [6]. Actually, we indeed find the as-prepared α-Ni(OH) 2 has transformed into the β-phase (JPCDS 14-0117) after electrochemical cycling (the XRD pattern of the product after 2000 cycles is shown in Fig.…”
Section: Nanosheets Increases From Less Than One Micrometer (Figs 2(supporting
confidence: 77%
“…Moreover, the pseudocapacitive reactions during charge and discharge process enable Ni(OH) 2 films to have a higher specific capacitance than traditional supercapacitor electrode materials such as RuO 2 [6]. Nevertheless, the exploitation of the electrochemical properties of this material faces key scientific and technological challenges.…”
Section: Introductionmentioning
confidence: 99%
“…4(f). The specific capacitance showed a decrease after the initial 100 cycles (retaining 97% of its initial capacitance), which can be attributed to pulverization and wettability issues [54]. Subsequent cycling actually caused an increase in the capacitance up to 1600 cycles.…”
Section: Asymmetric Electrochemical Capacitormentioning
confidence: 96%
“…temperature, but with a capacitance retention of 62 % after only 2000 CD cycles at 1 A/g [11]. It has been reported in the same study that the major contributor to such capacitance decay is the phase transformation from a-Ni(OH) 2 or c-NiOOH to b-Ni(OH) 2 or b-NiOOH phases, at relatively low discharge current densities [11].…”
Section: Electrode Prepared By Chemical Bath Deposition (Cbd) On Nickmentioning
confidence: 81%