The fluorophores Xan-OH and Xan-OH/FBS,based on xanthene structure,possess an effective nearinfrared absorption,near-infraredⅡ(NIR-Ⅱ)fluorescent imaging ability,and excellent photothermal property.Xan-OH/FBS also ha...The fluorophores Xan-OH and Xan-OH/FBS,based on xanthene structure,possess an effective nearinfrared absorption,near-infraredⅡ(NIR-Ⅱ)fluorescent imaging ability,and excellent photothermal property.Xan-OH/FBS also has good viscosity-sensitivity,enabling the real-time in vivo visualization of acute liver injury induced by CCl_(4).Moreover,the photothermal conversion coefficient of Xan-OH and Xan-OH/FBS under 808 nm laser irradiation are significant(27.53%and 26.77%,respectively),which could realize NIR-Ⅱfluorescence imaging-guided photothermal therapy for He La xenograft tumor.Given these promising characteristics,Xan-OH/FBS is an efficient NIR-Ⅱfluorescent imaging agent for acute liver injury and a potential photothermal therapeutic agent for tumor.展开更多
Photoluminescent hybrid materials containing carboxymethyl cellulose and lanthanide ions(Eu3+, Tb3+)were prepared by a facile method under ambient conditions. Lanthanide ions were covalently grafted to the cellulo...Photoluminescent hybrid materials containing carboxymethyl cellulose and lanthanide ions(Eu3+, Tb3+)were prepared by a facile method under ambient conditions. Lanthanide ions were covalently grafted to the cellulose framework through coordination with the carboxylic groups of the cellulose. Hybrid materials were fabricated as hydrogel and aerogel. As shown by SEM and pore parameters, aerogel materials which were obtained by supercritical CO2 drying show hierarchical porous structure. The photoluminescence spectrum of the hybrid materials shows the characteristic red emission of Eu3+ ion and green emission of Tb3+. Further luminescent investigations reveal that these hybrid materials can detect Fe3+ with relative selectivity and high sensitivity, which suggests that the hybrid materials could be a promising luminescent probe for selectively sensing Fe3+ ion.展开更多
基金supported by the National Natural Science Foundation of China(Nos.22067021,22367024,and 22267023)Innovation Team of Yunnan Education Department+1 种基金the“Youth Talent of Wan Ren Project”the Sichuan Science and Technology Program(No.2022YFS0633)。
文摘The fluorophores Xan-OH and Xan-OH/FBS,based on xanthene structure,possess an effective nearinfrared absorption,near-infraredⅡ(NIR-Ⅱ)fluorescent imaging ability,and excellent photothermal property.Xan-OH/FBS also has good viscosity-sensitivity,enabling the real-time in vivo visualization of acute liver injury induced by CCl_(4).Moreover,the photothermal conversion coefficient of Xan-OH and Xan-OH/FBS under 808 nm laser irradiation are significant(27.53%and 26.77%,respectively),which could realize NIR-Ⅱfluorescence imaging-guided photothermal therapy for He La xenograft tumor.Given these promising characteristics,Xan-OH/FBS is an efficient NIR-Ⅱfluorescent imaging agent for acute liver injury and a potential photothermal therapeutic agent for tumor.
基金Project supported by the National Natural Science Foundation of China(21161023,21661034)
文摘Photoluminescent hybrid materials containing carboxymethyl cellulose and lanthanide ions(Eu3+, Tb3+)were prepared by a facile method under ambient conditions. Lanthanide ions were covalently grafted to the cellulose framework through coordination with the carboxylic groups of the cellulose. Hybrid materials were fabricated as hydrogel and aerogel. As shown by SEM and pore parameters, aerogel materials which were obtained by supercritical CO2 drying show hierarchical porous structure. The photoluminescence spectrum of the hybrid materials shows the characteristic red emission of Eu3+ ion and green emission of Tb3+. Further luminescent investigations reveal that these hybrid materials can detect Fe3+ with relative selectivity and high sensitivity, which suggests that the hybrid materials could be a promising luminescent probe for selectively sensing Fe3+ ion.
