Anchoring cobalt oxide nanoparticles on to the surface multiwalled carbon nanotubes for improved supercapacitive performances

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Abstract

The present work explored a novel, simple and low cost 'dipping and drying' process followed by a successive ionic layer adsorption and reaction (SILAR) method for the synthesis of cobalt oxide anchored multiwalled carbon nanotubes (Co 3 O 4 /MWNTs). Initially, MWNTs have been coated on a stainless steel substrate by a simple 'dip and dry' method, on which further deposition of cobalt oxide nanoparticles was carried out by the SILAR method. Our results confirm the uniform coating of Co 3 O 4 nanoparticles having sizes less than 15 nm on the surface of MWNTs. Later, the electrochemical performance shows that, the Co 3 O 4 /MWNTs films exhibit a maximum specific capacitance of 685 F g -1 in a 2 M KOH electrolyte at a scan rate of 5 mV s -1 with high cycle stability of 73% over 5000 cycles. Moreover, lower electrochemical equivalent series resistance (11.25 mΩ) give rise to the superior performance. These results show, the potential of Co 3 O 4 /MWNTs composite electrodes in electrochemical supercapacitors.

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Sankapal, B. R., Gajare, H. B., Karade, S. S., & Dubal, D. P. (2015). Anchoring cobalt oxide nanoparticles on to the surface multiwalled carbon nanotubes for improved supercapacitive performances. RSC Advances, 5(60), 48426–48432. https://doi.org/10.1039/c5ra06377a

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