Publication | Closed Access
Rich-grain-boundary of Ni<sub>3</sub>Se<sub>2</sub> nanowire arrays as multifunctional electrode for electrochemical energy storage and conversion applications
117
Citations
39
References
2019
Year
EngineeringElectrode-electrolyte InterfaceMultifunctional ElectrodeControllable Nanoarchitecture ArraysChemistryConversion ApplicationsChemical EngineeringMaterials ScienceElectrical EngineeringPromising MaterialsBattery Electrode MaterialsNanotechnologySurface ElectrochemistryAdvanced Electrode MaterialEnergy StorageElectrochemical CellTransition Metal SelenideElectrochemical ProcessEnergy MaterialElectrochemistryApplied PhysicsElectrochemical Energy Storage
Controllable nanoarchitecture arrays of the transition metal selenide, supported on conductive substrates, are promising materials for high-performance electrochemical energy storage and conversion applications.
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