2012
DOI: 10.1016/s1005-0302(12)60153-4
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Carbon and Nickel Oxide/Carbon Composites as Electrodes for Supercapacitors

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Cited by 26 publications
(7 citation statements)
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“…As the larger I D /I G value stands for a higher defective level of the Fe 3 C/PNCF surface, this kind of carbon exhibits exceptional electrical conductivity and capacitance performance. 30,31 In addition, this result agrees with previous studies that the an appropriate amount of NaCl along with N-doping promotes the surface structural defects, which are considered as effective anchoring sites for trapping metal atoms to generate active sites. [32][33][34] Thus, the presence of disordered carbon sites on the surface of NaCl-assisted pyrolyzed samples is conducive to boosting the ORR performance.…”
Section: Resultssupporting
confidence: 91%
“…As the larger I D /I G value stands for a higher defective level of the Fe 3 C/PNCF surface, this kind of carbon exhibits exceptional electrical conductivity and capacitance performance. 30,31 In addition, this result agrees with previous studies that the an appropriate amount of NaCl along with N-doping promotes the surface structural defects, which are considered as effective anchoring sites for trapping metal atoms to generate active sites. [32][33][34] Thus, the presence of disordered carbon sites on the surface of NaCl-assisted pyrolyzed samples is conducive to boosting the ORR performance.…”
Section: Resultssupporting
confidence: 91%
“…206,207 Despite these competitive properties, the full implementation of NiO as a material for supercapacitors is stalled by their low ionic diffusion constant and structural instability. 208,209 In a comprehensive review by Sun et al 57 and a chapter by Zhang et al 205 earlier reports of modications of MnO 2 and NiO have been discussed in full details. In recent times, a lot of progress has been made with templating new materials especially TMO.…”
Section: Supercapacitorsmentioning
confidence: 99%
“…El material del electrodo es uno de los principales factores para determinar el rendimiento de los supercapacitores (Qi et al, 2017). La combinación de los materiales a base de carbono (Aldama, 2015), (carbón negro (Huang et al, 2017), grafeno (Han et al, 2017), nanotubos de carbono (Dai et al, 2017), aerogel de carbón (Yang et al, 2017), carbón vidrioso (Ahmed et al, 2017), carbón activado (Hall et al, 2015), y los materiales de pseudocapacidad (óxidos metálicos) como el óxido de rutenio (RuO2), óxido de níquel (NiO), óxido de manganeso (MnO2), entre otros (Jayakumar et al, 2018), (Marcinauskas et al, 2012), (Ho et al, 2014), son los más utilizados y son combinados para elaborar electrodos compuestos. Actualmente se ha prestado mucha atención a los óxidos metálicos de bajo costo, especialmente al óxido de níquel (NiO).…”
Section: Introductionunclassified