Reducing adhesion energy of micro-relay electrodes by ion beam synthesized oxide nanolayers | Zendy

Bivas Saha | Zendy; Alexis Peschot | Zendy; Benjamin Osoba | Zendy; Changhyun Ko | Zendy; L. Rubin | Zendy; TsuJae King Liu | Zendy; Junqiao Wu | Zendy

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Reducing adhesion energy of micro-relay electrodes by ion beam synthesized oxide nanolayers

Author(s) -

Bivas Saha,

Alexis Peschot,

Benjamin Osoba,

Changhyun Ko,

L. Rubin,

TsuJae King Liu,

Junqiao Wu

Publication year - 2017

Publication title -

apl materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.571

H-Index - 60

ISSN - 2166-532X

DOI - 10.1063/1.4978436

Subject(s) - materials science , electrode , adhesion , oxide , annealing (glass) , metal , ion beam , hysteresis , thin film , nanotechnology , optoelectronics , chemical engineering , composite material , beam (structure) , metallurgy , optics , chemistry , physics , engineering , quantum mechanics

Reduction in the adhesion energy of contacting metal electrode surfaces in nano-electro-mechanical switches is crucial for operation with low hysteresis voltage. We demonstrate that by forming thin layers of metal-oxides on metals such as Ru and W, the adhesion energy can be reduced by up to a factor of ten. We employ a low-energy ion-beam synthesis technique and subsequent thermal annealing to form very thin layers (∼2 nm) of metal-oxides (such as RuO2 and WOx) on Ru and W metal surfaces and quantify the adhesion energy using an atomic force microscope with microspherical tips

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