Litcius/Paper detail

Buoyant particulate strategy for few-to-single particle-based plasmonic enhanced nanosensors

Dongjie Zhang, Leqin Peng, Xinglong Shang, Wenxiu Zheng, Hongjun You, Teng Xu, Bo Ma, Bin Ren, Jixiang Fang

2020Nature Communications75 citationsDOIOpen Access PDF

Abstract

Abstract Detecting matter at a single-molecule level is the ultimate target in many branches of study. Nanosensors based on plasmonics have garnered significant interest owing to their ultrahigh sensitivity even at single-molecule level. However, currently, plasmonic-enhanced nanosensors have not achieved excellent performances in practical applications and their detection at femtomolar or attomolar concentrations remains highly challenging. Here we show a plasmonic sensing strategy, called buoyant plasmonic-particulate-based few-to-single particle-nanosensors. Large-sized floating particles combined with a slippery surface may prevent the coffee-ring effect and enhance the spatial enrichment capability of the analyte in plasmonic sensitive sites via the aggregation and lifting effect. Dimer and single particle-nanosensors demonstrate an enhanced surface-enhanced Raman spectroscopy (SERS) and a high fluorescence sensitivity with an enrichment factor up to an order of ∼10 4 and the limit of detection of CV molecules down to femto- or attomolar levels. The current buoyant particulate strategy can be exploited in a wide range of plasmonic enhanced sensing applications for a cost-effective, simple, fast, flexible, and portable detection.

Topics & Concepts

NanosensorPlasmonNanotechnologySurface-enhanced Raman spectroscopyParticle (ecology)Materials scienceNanoparticleRaman spectroscopyPlasmonic nanoparticlesOptoelectronicsRaman scatteringPhysicsOpticsGeologyOceanographyGold and Silver Nanoparticles Synthesis and ApplicationsPlasmonic and Surface Plasmon ResearchBiosensors and Analytical Detection
Buoyant particulate strategy for few-to-single particle-based plasmonic enhanced nanosensors | Litcius