SUPERCAPACITORS
Insight into the charge storage mechanism and capacity retention fading of manganese cobalt oxide used as supercapacitor electrodes
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Environmentally benign non-fluoro deep eutectic solvent and free-standing rice husk-derived bio-carbon based high-temperature supercapacitors
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A proton-hopping charge storage mechanism of ionic one-dimensional coordination polymers for high-performance supercapacitors >> Click here <<
Enhancing the Charge Storage Capacity of Lithium-Ion Capacitors Using Nitrogen-Doped Reduced Graphene Oxide Aerogel as a Negative Electrode: A Hydrodynamic Rotating Disk Electrode Investigation >> Click here <<
High-performance hybrid supercapacitor of mixed-valence manganese oxide/N-doped graphene aerogel nanoflower using an ionic liquid with a redox additive as the electrolyte: In situelectrochemical X-ray absorption spectroscopy >> Click here <<
Charge storage mechanisms of birnessite-type Manganese Oxide Nanosheets in Sodium Sulphate electrolytes with different pH values: In situ electrochemical X-ray absorption spectroscopy investigation >> Click here <<
Transparent supercapacitors of 2 nm ruthenium oxide nanoparticles decorated on a 3D nitrogen-doped graphene aerogel >> Click here <<
Sodium-ion diffusion and charge transfer kinetics of sodium-ion hybrid capacitors using bio-derived hierarchical porous carbon >> Click here <<