Efficient Access of Voltammetric Charge in Hybrid Supercapacitor Configured with Potassium Incorporated Nanographitic Structure Derived from Cotton (Gossypium arboreum) as Negative and Ni(OH)2/rGO Composite as Positive Electrode
IR@CMERI: CSIR- Central Mechanical Engineering Research Institute (CMERI), Durgapur
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| Title |
Efficient Access of Voltammetric Charge in Hybrid Supercapacitor Configured with Potassium Incorporated Nanographitic Structure Derived from Cotton (Gossypium arboreum) as Negative and Ni(OH)2/rGO Composite as Positive Electrode
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| Creator |
Saha, Sanjit
Jana, Milan Samanta, Pranab Murmu, Naresh C. Kuila, Tapas |
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| Subject |
Supercapacitor
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| Description |
Potassium (K) incorporated nanographitic structure has been derived from cotton (Gossypium arboreum) through KOH activation followed by postannealing treatment. The outer active sites increase as compared to the inner active sites in consequence to K incorporation. Diffusion time constant also decreases as surface area increases after K incorporation. Electrical conductivity of the nanographitic structure increases with K incorporation and showed a high specific capacitance (∼431 F g–1) as negative electrode material. An asymmetric supercapacitor (ASC) has been configured where α-Ni(OH)2/reduced graphene oxide composite was used as the positive electrode material. Appropriate incorporation of the positive and negative electrode materials in the ASC is supported by the efficient (74%) access of voltammetric charge available by the individual electrodes. Furthermore, low relaxation time constant (∼150 ms), high energy density (∼111 W h kg–1), and long life stability of the ASC ensure its potentiality in the energy storage applications.
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| Publisher |
ACS Publications
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| Date |
2016
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| Type |
Article
PeerReviewed |
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| Identifier |
Saha, Sanjit and Jana, Milan and Samanta, Pranab and Murmu, Naresh C. and Kuila, Tapas (2016) Efficient Access of Voltammetric Charge in Hybrid Supercapacitor Configured with Potassium Incorporated Nanographitic Structure Derived from Cotton (Gossypium arboreum) as Negative and Ni(OH)2/rGO Composite as Positive Electrode. Industrial & Engineering Chemistry Research, 55 (42). pp. 11074-11084.
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| Relation |
http://cmeri.csircentral.net/364/
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