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Preparation of Photoluminescence Tunable Cu-doped AgInS2 and AgInS2/ZnS Nanocrystals and Their Application as Cellular Imaging Probes.


ABSTRACT: In this work, high-quality Cu doped AIS and AIS/ZnS NCs have been first synthesized via a surface doping approach. By varying Cu concentrations in doping, Cu doped AIS NCs exhibit a photoluminescence red-shift from around 600 nm to 660 nm with a decrease of quantum yield from around 30% to 20%. After ZnS coating or zinc etching on the Cu doped AIS NCs, Cu doped AIS/ZnS NCs present photoluminescence peaks from around 570 nm to 610 nm and high quantum yields in the range of 50 ~ 60%. Moreover, it is found that Cu doping can prolong the photoluminescence lifetime of NCs, and the average photoluminescence lifetime of Cu doped AIS and AIS/ZnS NCs is in the range of 300 ~ 500 ns. The resultant Cu doped AIS/ZnS NCs were further encapsulated with amphiphilic polymers and used as biocompatible photoluminescent probes in cellular imaging. The cellular imaging study shows that peptide-conjugated probes can specifically target U-87 brain tumor cells and thus they can be applied to the detection of endogenous targets expressed on brain tumor cells.

SUBMITTER: Chen S 

PROVIDER: S-EPMC4896317 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Preparation of Photoluminescence Tunable Cu-doped AgInS<sub>2</sub> and AgInS<sub>2</sub>/ZnS Nanocrystals and Their Application as Cellular Imaging Probes.

Chen Siqi S   Demillo Violeta V   Lu Minggen M   Zhu Xiaoshan X  

RSC advances 20160519 56


In this work, high-quality Cu doped AIS and AIS/ZnS NCs have been first synthesized via a surface doping approach. By varying Cu concentrations in doping, Cu doped AIS NCs exhibit a photoluminescence red-shift from around 600 nm to 660 nm with a decrease of quantum yield from around 30% to 20%. After ZnS coating or zinc etching on the Cu doped AIS NCs, Cu doped AIS/ZnS NCs present photoluminescence peaks from around 570 nm to 610 nm and high quantum yields in the range of 50 ~ 60%. Moreover, it  ...[more]

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