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Highly efficient artificial light-harvesting systems constructed in aqueous solution for supramolecular photocatalysis

Guangping Sun, Minzan Zuo, Weirui Qian, Jianmin Jiao, Xiao‐Yu Hu, Leyong Wang

2021Green Synthesis and Catalysis63 citationsDOIOpen Access PDF

Abstract

Two highly efficient artificial light-harvesting systems (ALHSs) based on supramolecular strategy have been successfully fabricated by water-soluble pillar[5]arene (WP5), a bola-type salicylaldehyde-azine derivative (HNPD), and two different hydrophobic fluorescent dyes (Eosin Y (ESY) and Nile Red (NiR)). The constructed ALHSs show high antenna effect (32.5 for the WP5⊃HNPD-ESY assembly and 30.1 for the WP5⊃HNPD-NiR assembly) with the donor/acceptor ratio of [HNPD]/[ESY] ​= ​250:1 and [HNPD]/[NiR] ​= ​200:1, respectively. Significantly, the formed WP5⊃HNPD supramolecular nanoparticles perform an enhanced aggregation-induced emission (AIE) effect and can serve as an excellent energy donor to realize the energy transfer from the WP5⊃HNPD assembly to ESY and NiR in aqueous phase, respectively. Moreover, inspired by natural photosynthesis system, the WP5⊃HNPD-ESY and WP5⊃HNPD-NiR nanoparticles were further used to realize the photocatalytic dehalogenation reaction of α-bromoacetophenone in aqueous environment with moderate yields of 55% and 65%, suggesting that the solar energy was successfully harvested and effectively converted into chemical energy. This work not only provides a novel approach for the fabrication of highly efficient ALHSs in aqueous phase, but also successfully applies the output energy for the photocatalytic dehalogenation reaction of α-bromoacetophenone, showing a potential application in mimicking natural photosynthesis system.

Topics & Concepts

Aqueous solutionArtificial photosynthesisSupramolecular chemistryPhotocatalysisNanoparticleChemistryMaterials sciencePhotochemistryChemical engineeringNanotechnologyOrganic chemistryCatalysisMoleculeEngineeringLuminescence and Fluorescent MaterialsSupramolecular Chemistry and ComplexesSupramolecular Self-Assembly in Materials
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