Publication | Closed Access
Hierarchical NiO–In<sub>2</sub>O<sub>3</sub> microflower (3D)/ nanorod (1D) hetero-architecture as a supercapattery electrode with excellent cyclic stability
114
Citations
63
References
2016
Year
EngineeringNanoporous MaterialSimultaneous Heterogeneous GrowthChemistryExcellent Cyclic StabilityChemical EngineeringNanostructure SynthesisElectrode Reaction MechanismMaterials ScienceNanoscale SystemNanotechnologyEnergy StorageHierarchical Hybrid NanostructureThree-dimensional Microflower StructuresFoamFunctional NanomaterialsNanomaterialsSupercapattery ElectrodeNanofabricationNanoarchitectonics
Simultaneous heterogeneous growth of one-dimensional nanorod supported three-dimensional microflower structures on nickel foam enhanced the non-capacitive faradaic energy storage performance due to the synergistic contribution from the hierarchical hybrid nanostructure.
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