Litcius/Paper detail

BENDING FATIGUE BEHAVIOR OF AG NANOWIRE/CU THIN-FILM HYBRID INTERCONNECTS FOR WEARABLE ELECTRONICS

Byungil Hwang, Yurim Han, Paolo Matteini

2022Facta Universitatis Series Mechanical Engineering35 citationsDOIOpen Access PDF

Abstract

Enhancing the mechanical reliability of metal interconnects is important for achieving highly reliable flexible/wearable electronic devices. In this study, Ag nanowire and Cu thin-film hybrid interconnects were explored as a novel concept to enhance mechanical reliability under bending fatigue. Bending fatigue tests were conducted on the Cu thin films and Cu/Ag nanowire/polyimide (CAP) interconnects. The increase in resistance was larger for the Cu thin films than for the CAP. The single-component Cu electrodes showed multiple crack initiation and propagation due to bending strain, which degraded the electrical conductivity. In CAP, however, no long-range cracks were observed, even after 300,000 cycles of bending, although a wavy structure was observed, probably due to the delamination of the Ag nanowires under repeated bending. Our study confirms that flexible Ag nanowire and metal thin-film hybrids can enhance the mechanical reliability of metal thin-film interconnects under bending fatigue.

Topics & Concepts

Materials scienceBendingNanowireComposite materialDelamination (geology)Thin filmFlexible electronicsElectrodePolyimideOptoelectronicsNanotechnologyLayer (electronics)BiologyPaleontologyChemistryTectonicsSubductionPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsElectronic Packaging and Soldering TechnologiesSynthesis and properties of polymers
BENDING FATIGUE BEHAVIOR OF AG NANOWIRE/CU THIN-FILM HYBRID INTERCONNECTS FOR WEARABLE ELECTRONICS | Litcius