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Graphene-Loaded Plasmonic Zirconium Nitride and Gold Nanogroove Arrays for Surface-Charge Modifications

Min‐Wen Yu, Satoshi Ishii, Ji-Ren Ku, Jhen‐Hong Yang, Chih-Hsiang Huang, Tien‐Chang Lu, Tzy-Rong Lin, Tadaaki Nagao, Kuo‐Ping Chen

2020ACS Applied Nano Materials13 citationsDOI

Abstract

Graphene-on-metal (G/M) heterostructures have gained considerable attention in recent years owing to their outstanding optical and electrical properties. In this study, the polarity of graphene doping to different metallic materials underneath graphene is analyzed for applications in surface-charge modifications. Kelvin probe force microscopy clearly reveals the charge-transfer effects of plasmonic zirconium nitride (ZrN) and gold (Au) on the formation of G/M heterostructures. In addition, both ZrN and Au nanogroove arrays are fabricated by focused ion beam to generate surface plasmon resonances. The charge-transfer effects influence the effective permittivities of ZrN and Au surfaces such that opposite plasmonic resonance shifts are demonstrated for the ZrN and Au nanogroove arrays. Our results show that the choice of metallic material is important for achieving a desired charge transfer in the loading of graphene onto metallic materials.

Topics & Concepts

Materials scienceGrapheneZirconium nitrideKelvin probe force microscopePlasmonHeterojunctionZirconiumNanotechnologyNitrideSurface plasmon resonanceOptoelectronicsTitanium nitrideNanoparticleMetallurgyAtomic force microscopyLayer (electronics)Graphene research and applicationsPlasmonic and Surface Plasmon Research2D Materials and Applications
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