摘要
Fluorescent hyperbranched polymers (FHBPs),which combine the versatile fluorescent property with unique characteristics of hyperbranched architecture,are desirable candidates for stimulus responsive materials.This review demonstrates the structure and environment-dependent emission behaviors of a series of FHBPs.AEE active FHBPs showing opposite performance to ACQ effect are used to sensitively detect explosives and a superamplification effect is found.Specially designed FHBPs can complex with metal ions,leading to fluorescence turn-off due to complex quenching effect.The protonation of amino-containing FHBPs exhibits pH-dependent fluorescence responses to solution acidity.Some FHBPs containing responsive moieties are photo-and thermo-sensitive,and show potential applications as smart materials.
Fluorescent hyperbranched polymers (FHBPs),which combine the versatile fluorescent property with unique characteristics of hyperbranched architecture,are desirable candidates for stimulus responsive materials.This review demonstrates the structure and environment-dependent emission behaviors of a series of FHBPs.AEE active FHBPs showing opposite performance to ACQ effect are used to sensitively detect explosives and a superamplification effect is found.Specially designed FHBPs can complex with metal ions,leading to fluorescence turn-off due to complex quenching effect.The protonation of amino-containing FHBPs exhibits pH-dependent fluorescence responses to solution acidity.Some FHBPs containing responsive moieties are photo-and thermo-sensitive,and show potential applications as smart materials.
作者
WANG Jian 1,MEI Ju 1,QIN AnJun 1,SUN JingZhi 1 & TANG Ben Zhong 1,2 1 MOE Key Laboratory of Macromolecular Synthesis and Functionalization
Department of Polymer Science and Engineering,Institute of Biomedical Macromolecules,Zhejiang University,Hangzhou 310027,China 2 Department of Chemistry,The Hong Kong University of Science & Technology,Hong Kong,China
基金
supported by the National Natural Science Foundation of China(20634020,50873086)
the Ministry of Science & Technology of China(2009CB623605)
the Research Grants Council of HongKong (603509,603008,601608,602707,602706,CUHK2/CRF/08,and HKU2/05C)
the support from the CAO GuangBiao Foundation of Zhejiang University