Abstract

When exposed to water, the two-dimensional uranyl-organic layered compound [(CH₃)₂NH₂][(UO₂)(BCPBA)]·2DMF·H₂O (H₃BCPBA = 3,5-bis (4'-carboxylphenoxy) benzoic acid) gradually undergoes a complete single-crystal-to-single-crystal phase transition to [(CH₃)₂NH₂][(UO₂)(BCPBA)]·3.4H₂O, resulting in an enhanced ligand-ligand interaction between the adjacent layers. This process gives rise to initial quenching of the uranyl photoluminescence followed by subsequent recovery of the photoluminescence with a much elevated intensity, as a unique case of aggregation-induced emission in an extended solid system, further confirmed by DFT analysis on bonding.