Manipulating AIE ligands into layers of pillar-layered MOFs for enhanced emission.

Manman ChangNan LiLingxiao GuoYijia ZhangXiao-Ting LiuChao Lu

Published in: Chemical communications (Cambridge, England) (2024)

Four pillar-layered AIEgen-based MOFs exhibit higher thermal stability, tunable emission colors and improved QYs compared with that of non-pillar-layered AIEgen-based MOFs by confining the AIE ligands into layers. These results reveal that rationally manipulating AIE ligands into layers of pillar-layered MOFs is an effective strategy for the design and construction of tunable luminescent MOF systems.

Keyphrases

metal organic framework
reduced graphene oxide
highly efficient
fluorescent probe
living cells
transition metal
ion batteries
solar cells
energy transfer
gold nanoparticles
single molecule