Throughout the world's first-class universities, the university culture is the soul of the universities' survival and development, and the cultural competitiveness has become an important symbol of the core competit...Throughout the world's first-class universities, the university culture is the soul of the universities' survival and development, and the cultural competitiveness has become an important symbol of the core competitiveness of the universities. The first-class university culture is very important to the construction of the "double first-class". Therefore, our country should bring the university cultural construction into the big pattern of the "double first-class" construction, guide the construction of the university cultures with the socialist core values, strengthen the cultural confidence, inherit the Chinese excellent traditional cultures, pay attention to the rational exchange of the multicultural cultures, highlight the Chinese characteristics of the first-class university cultures, and realize the dream of the Chinese nation of a power of the higher education.展开更多
We report on the fabrication of fluorescent and multicolor probes for Zn^2+ ions and temperature from a mixture of three types of fluorophore-labeled responsive block copolymers in aqueous media. Quinoline-based Zn^2...We report on the fabrication of fluorescent and multicolor probes for Zn^2+ ions and temperature from a mixture of three types of fluorophore-labeled responsive block copolymers in aqueous media. Quinoline-based Zn^2+-recognizing fluorescent mono- mer ZQMA, red-emitting rhodamine B-based monomer RhBEA, and blue-emitting coumarin derivative Coum-OH, were syn- thesized first. A ZQMA-labeled well-defined double hydrophilic block copolymer (DHBC), PEG-b-P(MEO2MA-co-ZQMA), was synthesized via reversible addition-fragmentation chain-transfer (RAFT) polymerization of 2-(2-methoxyethoxy)ethyl methacrylate (MEOzMA) and ZQMA by utilizing a PEG-based macroRAFT agent. Following similar procedures, PEG-b-P(St-co-RhBEA) amphiphilic diblock copolymer and PEG-b-P(MEOzMA-co-Coum) DHBC were also synthesized, where P(St-co-RhBEA) was a RhBEA-labeled polystyrene (PS) block. At room temperature in aqueous solution, almost non- fluorescent PEG-b-P(MEOzMA-co-ZQMA) can effectively bind Zn2+ ions, leading to prominent green fluorescence enhance- ment due to the coordination of ZQMA with Zn^2+ ions. However, by mixing red-emitting PEG-b-P(St-co-RhBEA) and blue-emitting PEG-b-P(MEO2MA-co-Coum) with PEG-b-P(MEO2MA-co-ZQMA) at an appropriate ratio, three color transitions could be observed. In the absence of Zn^2+ ions, a mixed pink fluorescent originating from Coum and RhBEA was ob- served; upon the addition of a certain amount of Zn^2+ ions, the green fluorescence enhanced dramatically, leading to a white fluorescence readout. By further increasing the amount of Zn2+ ions, the green fluorescence further enhanced and overwhelmed the blue and red emissions, leading to a green-dominant mixed-fluorescence emission. In addition, upon increasing the temperature, the fluorescence of Coum decreased considerably due to the fluorescence-resonance energy transfer (FRET) between Coum and ZQMA moieties. In this way, a ratiometric fluorescent thermometer can be constructed.展开更多
文摘Throughout the world's first-class universities, the university culture is the soul of the universities' survival and development, and the cultural competitiveness has become an important symbol of the core competitiveness of the universities. The first-class university culture is very important to the construction of the "double first-class". Therefore, our country should bring the university cultural construction into the big pattern of the "double first-class" construction, guide the construction of the university cultures with the socialist core values, strengthen the cultural confidence, inherit the Chinese excellent traditional cultures, pay attention to the rational exchange of the multicultural cultures, highlight the Chinese characteristics of the first-class university cultures, and realize the dream of the Chinese nation of a power of the higher education.
基金supported by the National Natural Science Foundation of China(21274137,51273190,91027026,and 51033005)the Specialized Research Fund for the Doctoral Program of Higher Education(20123402130010)
文摘We report on the fabrication of fluorescent and multicolor probes for Zn^2+ ions and temperature from a mixture of three types of fluorophore-labeled responsive block copolymers in aqueous media. Quinoline-based Zn^2+-recognizing fluorescent mono- mer ZQMA, red-emitting rhodamine B-based monomer RhBEA, and blue-emitting coumarin derivative Coum-OH, were syn- thesized first. A ZQMA-labeled well-defined double hydrophilic block copolymer (DHBC), PEG-b-P(MEO2MA-co-ZQMA), was synthesized via reversible addition-fragmentation chain-transfer (RAFT) polymerization of 2-(2-methoxyethoxy)ethyl methacrylate (MEOzMA) and ZQMA by utilizing a PEG-based macroRAFT agent. Following similar procedures, PEG-b-P(St-co-RhBEA) amphiphilic diblock copolymer and PEG-b-P(MEOzMA-co-Coum) DHBC were also synthesized, where P(St-co-RhBEA) was a RhBEA-labeled polystyrene (PS) block. At room temperature in aqueous solution, almost non- fluorescent PEG-b-P(MEOzMA-co-ZQMA) can effectively bind Zn2+ ions, leading to prominent green fluorescence enhance- ment due to the coordination of ZQMA with Zn^2+ ions. However, by mixing red-emitting PEG-b-P(St-co-RhBEA) and blue-emitting PEG-b-P(MEO2MA-co-Coum) with PEG-b-P(MEO2MA-co-ZQMA) at an appropriate ratio, three color transitions could be observed. In the absence of Zn^2+ ions, a mixed pink fluorescent originating from Coum and RhBEA was ob- served; upon the addition of a certain amount of Zn^2+ ions, the green fluorescence enhanced dramatically, leading to a white fluorescence readout. By further increasing the amount of Zn2+ ions, the green fluorescence further enhanced and overwhelmed the blue and red emissions, leading to a green-dominant mixed-fluorescence emission. In addition, upon increasing the temperature, the fluorescence of Coum decreased considerably due to the fluorescence-resonance energy transfer (FRET) between Coum and ZQMA moieties. In this way, a ratiometric fluorescent thermometer can be constructed.