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Drying Acoustically Levitated Droplets as Signal-Amplifying Platforms for Ultrasensitive and Multimode Laser Sensing

Yuanchao Liu, Jie Pan, Guobin Zhang, Binbin Zhou, Zebiao Li, Pikting Cheung, Weiliang Wang, Yuying Zhu, Siyi Xiao, Lianbo Guo, Condon Lau

2023ACS Applied Materials & Interfaces14 citationsDOI

Abstract

Ultrasensitive sensing to trace atomic and molecular analytes has gained interest for its intimate relation to industrial sectors and human lives. One of the keys to ultrasensitive sensing for many analytical techniques lies in enriching trace analytes onto well-designed substrates. However, the coffee ring effect, nonuniform distribution of analytes onto substrates, in the droplet drying process hinders the ultrasensitive and stable sensing onto the substrates. Here, we propose a substrate-free strategy to suppress the coffee ring effect, enrich analytes, and self-assemble a signal-amplifying (SA) platform for multimode laser sensing. The strategy involves acoustically levitating and drying a droplet, mixed with analytes and core–shell Au@SiO 2 nanoparticles, to self-assemble an SA platform. The SA platform with a plasmonic nanostructure can dramatically enrich analytes, enabling enormous spectroscopic signal amplification. Specifically, the SA platform can promote atomic detection (cadmium and chromium) to the 10 –3 mg/L level by nanoparticle-enhanced laser-induced breakdown spectroscopy and can promote molecule detection (rhodamine 6G) to the 10 –11 mol/L level by surface-enhanced Raman scattering. All in all, the SA platform, self-assembled by acoustic levitation, can intrinsically suppress the coffee ring effect and enrich trace analytes, enabling ultrasensitive multimode laser sensing.

Topics & Concepts

Materials scienceMulti-mode optical fiberLaserOptoelectronicsSIGNAL (programming language)NanotechnologyOpticsOptical fiberProgramming languagePhysicsComputer scienceNanomaterials and Printing TechnologiesMicrofluidic and Bio-sensing TechnologiesElectrohydrodynamics and Fluid Dynamics
Drying Acoustically Levitated Droplets as Signal-Amplifying Platforms for Ultrasensitive and Multimode Laser Sensing | Litcius