Litcius/Paper detail

Liquid‐Metal‐Assisted Programmed Galvanic Engineering of Core–shell Nanohybrids for Microwave Absorption

Biao Zhao, Yiqian Du, Hualiang Lv, Zhikai Yan, Hua Jian, Guanyu Chen, Yuyang Wu, Bingbing Fan, Jincang Zhang, Limin Wu, David Wei Zhang, Renchao Che

2023Advanced Functional Materials239 citationsDOI

Abstract

Abstract Core–shell nanostructures have received widespread attention because of their potential usage in various technological and scientific fields. However, they still face significant challenges in terms of fabrication of core–shell nanostructure libraries on a controlled, and even programmed scale. This study proposes a general approach to systematically fabricate core–shell nanohybrids using liquid‐metal Ga alloys as reconfigurable templates, and the initiation of a local galvanic replacement reaction is demonstrated utilizing an ultrasonic system. Under ultrasonic agitation, the hydrated gallium oxides generated on the liquid metal droplets, simultaneously delaminated themselves from the interfaces. Subsequently, single‐metal or bimetallic components are deposited on fresh smooth Ga‐based alloys via galvanic reactions to form unique core–shell metal/metal nanohybrids. Controlled and quantitative regulation of the diversity of the non‐homogeneous nanoparticle shell layer composition is achieved. The obtained core–shell nanostructures are used as efficient microwave absorbers to dissipate unwanted electromagnetic wave pollution. The effective absorption bands (90% absorption) of core–shell GaNi and GaCoNi nanohybrids are 3.92 and 3.8 GHz at a thickness of 1.4 mm, respectively. This general and advanced strategy enables the growth of other oxides or sulfides by spontaneous interfacial redox reactions for the fabrication of functional materials in the future.

Topics & Concepts

Materials scienceGalvanic cellAbsorption (acoustics)NanostructureNanotechnologyFabricationBimetallic stripMicrowaveLiquid metalNanoparticleShell (structure)Core (optical fiber)MetalComposite materialMetallurgyQuantum mechanicsPathologyMedicineAlternative medicinePhysicsElectromagnetic wave absorption materialsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies