Paul, PallabiPallabiPaulSchmitt, PaulPaulSchmittSigurjónsdóttir, VilborgVilborgSigurjónsdóttirHanemann, KevinKevinHanemannFelde, NadjaNadjaFeldeSchröder, SvenSvenSchröderOtto, FelixFelixOttoGruenewald, MarcoMarcoGruenewaldFritz, TorstenTorstenFritzRoddatis, VladimirVladimirRoddatisTünnermann, AndreasAndreasTünnermannSzeghalmi, AdrianaAdrianaSzeghalmi2023-05-162023-05-162023https://publica.fraunhofer.de/handle/publica/44198610.1021/acsami.2c22590Heterostructures increasingly attracted attention over the past several years to enable various optoelectronic and photonic applications. In this work, atomically thin interfaces of Ir/Al2O3 heterostructures compatible with micro-optoelectronic technologies are reported. Their structural and optical properties were determined by spectroscopic and microscopic techniques (XRR, XPS, HRTEM, spectroscopic ellipsometry, and UV/vis/NIR spectrophotometry). The XRR and HRTEM analyses reveal a layer-by-layer growth mechanism of Ir in atomic scale heterostructures, which is different from the typical island-type growth of metals on dielectrics. Alongside, XPS investigations imply the formation of Ir-O-Al bonding at the interfaces for lower Ir concentrations, in contrast to the nanoparticle core-shell structure formation. Precisely tuning the ratio of the constituents ensures the control of the dispersion profile along with a transition from effective dielectric to metallic heterostructures. The Ir coating thickness was varied ranging from a few angstroms to films of about 7 nm in the heterostructures. The transition has been observed in the structures containing individual Ir coating thicknesses of about 2-4 nm. Following this, we show epsilon-near-zero metamaterials with tunable dielectric constants by precisely varying the composition of such heterostructures. Overall, a comprehensive study on structural and optical properties of the metal-dielectric interfaces of Ir/Al2O3 heterostructures was addressed, indicating an extension of the material portfolio available for novel optical functionalities.enatomic layer depositioninterfacesiridium/aluminum oxidemetal-dielectric heterostructuresstructural and optical propertiesjournal article