Redox-Guest-Induced Multimode Photoluminescence Switch for Sequential Logic Gates in a Photoactive Coordination Cage.
Kai WuYa-Jun HouYu-Lin LuYan-Zhong FanYa-Nan FanHui-Juan YuKang LiMei PanCheng-Yong SuPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2019)
Molecular or supramolecular level photoluminescence (PL) modulation combining chemical and photonic input/output signals together in an integrated system can provide potential high-density data memorizing and process functions intended for miniaturized devices and machines. Herein, a PL-responsive supramolecular coordination cage has been demonstrated for complex interactions with redox-active guests. PL signals of the cage can be switched and modulated by adding or retracting Fc derivatives or converting TTF into different oxidation states through chemical or photochemical pathways. As a result, reversible or stepwise PL responses are displayed by these host-guest systems because of the occurrence of photoinduced electron-transfer (PET) or fluorescence resonance energy transfer (FREnT) processes, providing unique nanodevice models bearing off/on logic gates or memristor-like sequential memory and Boolean operation functions.
Keyphrases
- energy transfer
- electron transfer
- high density
- quantum dots
- risk assessment
- computed tomography
- diabetic rats
- pet ct
- working memory
- water soluble
- positron emission tomography
- big data
- high speed
- drug delivery
- single molecule
- hydrogen peroxide
- high resolution
- pet imaging
- artificial intelligence
- nitric oxide
- stress induced