Publication | Open Access
Tracking ion intercalation into layered Ti<sub>3</sub>C<sub>2</sub> MXene films across length scales
159
Citations
48
References
2020
Year
EngineeringElectrode-electrolyte InterfaceLayered Materials ReliesThin Film Process TechnologyChemistryIon IntercalationNanoscale ScienceElectrochemical InterfaceMxenesThin Film ProcessingMaterials ScienceNanotechnologyLength ScalesEnergy StorageElectrode InteractionsElectrochemical ProcessLayered MaterialEnergy MaterialElectrochemistryElectronic MaterialsSurface ScienceApplied PhysicsElectrolyte IonsThin FilmsFunctional Materials
Enhancing the energy stored and power delivered by layered materials relies strongly on improved understanding of the intricate interplay of electrolyte ions, solvents, and electrode interactions as well as the role of confinement.
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