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Water-Vapor-Triggered Dual-Mode Optical Responses in Rare-Earth-Doped Hollow Nanospheres

Hongji Huang, Zixian Chen, Hanqi Zheng, Yingyi Ou, Jianing Zhang, Kang Xiao, Jinqing Huang, Zhao‐Qing Liu, Yibo Chen

2024Nano Letters12 citationsDOI

Abstract

Multimode responsive optical materials are garnering ever-increasing attention due to their diverse applications. This work showcases a film assembled with rare-earth-doped CaF 2 hollow nanospheres that exhibit water-vapor-triggered dual-mode optical responses. Upon exposure to flowing water vapor, the film rapidly (less than 1.5 s for a 7.7 μm thickness) transitions to a transparent state and simultaneously undergoes a sharp decrease in the photoluminescence intensity. Both of these changes fully reverse upon water evaporation, demonstrating an impressive reversibility over at least 200 cycles. The water-vapor-induced dual-mode responses are attributed to the altered incident light propagation path stemming from the similar refractive indices between CaF 2 and water, coupled with the water-induced energy loss of the rare-earth ions. The fabrication of encryption patterns displaying separate signals in multiple channels, as well as the demonstration of noncontact sensing for water vapor distribution, underscore the promising application potential of this dual-mode responsive system.

Topics & Concepts

DopingRare earthMaterials scienceDual modeNanotechnologyDual (grammatical number)Water vaporOptoelectronicsChemical engineeringChemistryOrganic chemistryMetallurgyAerospace engineeringLiteratureArtEngineeringQuantum optics and atomic interactionsLanthanide and Transition Metal ComplexesLuminescence and Fluorescent Materials
Water-Vapor-Triggered Dual-Mode Optical Responses in Rare-Earth-Doped Hollow Nanospheres | Litcius