Leaf-Inspired Host-Guest Complexation-Dictating Supramolecular Gas Sensors.
Junsu ParkYui SasakiYoshiki IshiiShunsuke MurayamaKohei OhshiroKengo NishiuraRyohei IkuraHiroyasu YamaguchiAkira HaradaGo MatsubaHitoshi WashizuTsuyoshi MinamiYoshinori TakashimaPublished in: ACS applied materials & interfaces (2023)
We report unique conductive leaf-inspired (in particular, stomata-inspired) supramolecular gas sensors in which acetylated cyclodextrin derivatives rule the electric output. The gas sensors consist of polymers bearing acetylated cyclodextrin, adamantane, and carbon black. Host-guest complexes between acetylated cyclodextrin and adamantane corresponding to the closed stomata realize a flexible polymeric matrix. Effective recombination of the cross-links contributes to the robustness. As gas sensors, the supramolecular materials detect ammonia as well as various other gases at 1 ppm in 10 min. The free acetylated cyclodextrin corresponding to open stomata recognized the guest gases to alter the electric resistivity. Interestingly, the conductive device failed to detect ammonia gases at all without acetylated cyclodextrin. The molecular recognition was studied by molecular dynamics simulations. The gas molecules existed stably in the cavity of free acetylated cyclodextrin. These findings show the potential for developing wearable gas sensors.