UV light-switchable luminescent hydrogels based on lanthanide complexes and boron-nitrogen-doped carbon dots for luminescent response to acid-base vapor

Lanthanide complexes and carbon quantum dots (CDs) have drawn increasing attention in recent years as special building blocks for luminescent hydrogels due to their unique optical properties, chemical stability, biocompatibility, and low toxicity. However, the existing works are mainly limited to the luminescence color modulation at different excitation wavelengths, and few works have utilized two emitting sources to construct white-light hydrogels. Herein, we present a simple approach for the preparation of UV light-switchable hydrogels based on the conjugation of Na₃[Ln(dpa)₃] (Ln = Eu, Tb; dpa = pyridine-2, 6-dicarboxylic acid) and water-soluble CDs. Under 254 nm UV lamp irradiation, the composite of red light from Na₃[Eu(dpa)₃], green light from Na₃[Tb(dpa)₃] and blue light from CDs in an appropriate ratio can realize the construction of white-light hydrogels. Moreover, the emission colors of the resulting hydrogels can be switched from the white color of Na₃[Ln(dpa)₃]/CDs to the blue color of single CDs depending on the change in UV light illumination from 254 to 365 nm. The facile preparation and unique optical features make these hydrogels applicable in luminescent pH sensors with dual responsiveness at two non-interfering wavelengths.