Thermoresponsive luminescent organic materials have great potential for intelligent optical devices,but their applicability remains limited due to formidable challenges in achieving tunable response temperature and di...Thermoresponsive luminescent organic materials have great potential for intelligent optical devices,but their applicability remains limited due to formidable challenges in achieving tunable response temperature and different colors.In this study,we developed a thermoresponsive polymer/lanthanide ion(Ln^(3+))complex system,enabling precise regulation of luminescence color and response temperature.The polymer was synthesized via copolymerization of acrylamide(Am)with 6-(3-(2-(methacryloyloxy)ethyl)ureido)picolinate(MAUP).The MAUP unit incorporates ligands capable of coordinating with Ln^(3+)and functions as an“antenna”,absorbing incident light and efficiently transferring energy to Ln^(3+),leading to diverse luminescent emissions.The thermoresponsive property of the poly(Am-co-MAUP)/Ln^(3+)complexes,based on the synergy of ionic coordination and hydrogen bonding,imparts the precise regulation of luminescence with temperature.The response temperature of the poly(Amco-MAUP)/Ln^(3+)complexes can be finely tuned by various factors synergistically,including polymer composition and Ln^(3+)concentrations.Moreover,these thermoresponsive luminescent complexes enable potential applications in multi-level information encryption and visual temperature sensing.展开更多
基金supported by the Ningbo Youth Leading Talent Project(2024QL020)the National Natural Science Foundation of China(52373118 and 22075154)+1 种基金the“Mechanics+”Interdisciplinary Top Innovative Youth Fund Project of Ningbo University(LJ2024006)the Ningbo Major Science and Technology Project(2024Z205)。
文摘Thermoresponsive luminescent organic materials have great potential for intelligent optical devices,but their applicability remains limited due to formidable challenges in achieving tunable response temperature and different colors.In this study,we developed a thermoresponsive polymer/lanthanide ion(Ln^(3+))complex system,enabling precise regulation of luminescence color and response temperature.The polymer was synthesized via copolymerization of acrylamide(Am)with 6-(3-(2-(methacryloyloxy)ethyl)ureido)picolinate(MAUP).The MAUP unit incorporates ligands capable of coordinating with Ln^(3+)and functions as an“antenna”,absorbing incident light and efficiently transferring energy to Ln^(3+),leading to diverse luminescent emissions.The thermoresponsive property of the poly(Am-co-MAUP)/Ln^(3+)complexes,based on the synergy of ionic coordination and hydrogen bonding,imparts the precise regulation of luminescence with temperature.The response temperature of the poly(Amco-MAUP)/Ln^(3+)complexes can be finely tuned by various factors synergistically,including polymer composition and Ln^(3+)concentrations.Moreover,these thermoresponsive luminescent complexes enable potential applications in multi-level information encryption and visual temperature sensing.
