Sterl, FlorianFlorianSterlStrohfeldt, NikolaiNikolaiStrohfeldtWalter, RamonRamonWalterGriessen, RonaldRonaldGriessenTittl, AndreasAndreasTittlGiessen, HaraldHaraldGiessen2026-03-252026-03-252015-08-27Nano Letters 15 (12): 7949-7955 (2015)https://hdl.handle.net/11420/62401Investigating new materials plays an important role for advancing the field of nanoplasmonics. In this work, we fabricate nanodisks from magnesium and demonstrate tuning of their plasmon resonance throughout the whole visible wavelength range by changing the disk diameter. Furthermore, we employ a catalytic palladium cap layer to transform the metallic Mg particles into dielectric MgH₂ particles when exposed to hydrogen gas. We prove that this transition can be reversed in the presence of oxygen. This yields plasmonic nanostructures with an extinction spectrum that can be repeatedly switched on or off or kept at any intermediate state, offering new perspectives for active plasmonic metamaterials.en1530-699220151279497955American Chemical Societyactive plasmonicschemical reaction sensinghydrogen loadingMagnesiumnanochemistrynanofabricationnanoopticsTechnology::600: TechnologyJournal Article10.1021/acs.nanolett.5b03029Journal Article