Here
we demonstrate a novel and facile strategy of highly luminescent
water-soluble Zn-doped AgIn5S8 (ZAIS) nanocrystals
and ZAIS/ZnS core/shell structures, which were based on hydrothermal
reaction between the acetate salts of the corresponding metals and
sulfide precursor in the presence of l-cysteine at 110 °C
in a Teflon-lined autoclave. The photoluminescent (PL) emission wavelength
can be conveniently tuned from 560 to 650 nm by tailoring the stoichiometric
ratio of [Ag]/[Zn]. The as prepared nanocrystals were characterized
systematically and exhibit long PL lifetimes more than 100 ns. The
influence of experimental conditions, including concentration of l-cysteine and reaction temperature, was investigated. In addition,
we performed a coating procedure with the ZnS shell outside the ZAIS
core and showed excellent PL quantum yields up to 35%. The in vitro experiment exhibited quite low cytotoxicity and
marvelous biocompatibility, revealing their promising prospect in
bioscience. Furthermore, the obtained ZAIS/ZnS nanocompounds (NCs)
were covalently conjugated to alpha-fetoprotein antibodies and targeted
fluorescent imaging for hepatocellular carcinoma cells was realized.