Viswanathan, A.Gururaj Acharya, M.Nityananda Shetty, A.N.2026-02-052020Journal of Colloid and Interface Science, 2020, 575, , pp. 377-387219797https://doi.org/10.1016/j.jcis.2020.05.009https://idr.nitk.ac.in/handle/123456789/23756The high rate capable, high energy (higher than the lead acid batteries & Nickel-cadmium batteries and comparable with Li-ion batteries) and long lasting supercapacitive performance was achieved from a ternary nanocomposite of rGO/Al(OH)<inf>3</inf>/PANI (5.88%:11.77%:82.85%) (GAlP82). The GAlP82 exhibited high cyclic stability till 47,500 cycles at 400 mV s?1, with increasing trend of specific capacitance (C<inf>s</inf>) with increase in No. of energy storage/delivery cycles. After 41,500 cycles the GAlP82 exhibited a C<inf>s</inf> of 490.19 F g?1, an energy density (E) of 98.03 W h kg?1 and a power density (P) of 2.2829 kW kg?1 at 1 A g?1. The GAlP82 exhibited a good rate capability by retaining 73% of C<inf>s</inf> up to 10 A g?1 before cyclic stability study and 33% of C<inf>s</inf> up to 23 A g?1 after 41,500 cycles; and all these impressive performances are achieved from the symmetric supercapacitor cell of GAlP82. © 2020 Elsevier Inc.CapacitanceCesiumEnergy storageGrapheneLithium-ion batteriesNickel cadmium batteriesReduced Graphene OxideSupercapacitorCyclic stabilityEnergy densityHigh cyclic stabilitiesLong lastingPower densitiesRate capabilitiesSpecific capacitanceTernary nanocompositesLead acid batteriesacidaluminumcadmiumglassgraphene oxidegraphiteleadlithium ionnanochannelnanocompositenickelnitrogenoxygenpolyanilinesodium ionsulfurArticleconductancecontrolled studycyclic voltammetrydeconvolutionelectric conductivityenergyfield emission scanning electron microscopyFourier transform infrared spectroscopyoxidationoxidation reduction reactionparticle sizereduction (chemistry)