Fluorescent Humidity Sensors Based on Photonic Resonators

Abstract

AbstractAmong the different approaches to humidity sensing available, those based on fluorescent signals are gathering a great deal of attention due to their fast response and versatility of detection and design. So far, all proposals have focused on the use of luminescent probes whose emission is either triggered or inhibited by the presence of water that reacts or alters their chemical environment, hence inducing the signal change. Here, a novel concept in fluorescent humidity sensing based on combining stimuli‐responsive photonic resonators with molecular fluorescent probes is introduced. The resonator is assembled from humidity‐swellable antimony phosphate nanosheets embedding a planar light‐emitting probe, whose emission is dramatically modified by the changes that ambient humidity causes in its photonic environment. Guided by “in silico” optical design of the resonator architecture and subsequent experimental realization, two embodiments of fluorescent photonic humidity sensors featuring turn‐on and turn‐off detection schemes are presented. The interplay between the luminescent properties of an emitter and its photonic environment implies a fundamental advantage as the emitters are not chemically altered during the detection process. At the same time, it paves the way toward a new generation of photonic humidity sensors which can conveniently be interfaced with common fluorescence detection schemes.