Grafting of ZnS:Mn-Doped Nanocrystals and an Anticancer Drug onto Graphene Oxide for Delivery and Cell Labeling.

Dinda, Sanghamitra; Kakran, Mitali; Zeng, Jialiu; Sudhaharan, Thankiah; Ahmed, Sohail; Das, Debajyoti; Selvan, Subramanian Tamil

A facile method for the synthesis of highly fluorescent manganese-doped zinc sulfide (ZnS:Mn) nanocrystals covalently functionalized with polyethylene glycol conjugated graphene oxide (GO-PEG) for drug delivery and cell labeling is reported. First, covalently functionalized GO with PEG-bis(amine) to enhance the solubility and biocompatibility in water and physiological buffers. Second, glutathione (GSH)-coated ZnS:Mn-doped nanocrystals were covalently grafted onto GO-PEG. An acid-amidation process was employed to obtain GO-PEG/ZnS:Mn nanocomposites, which were characterized by UV/Vis, photoluminescence, and Fourier transform infrared spectroscopies, and transmission electron microscopy. Finally, the anticancer drug doxorubicin (DOX) was noncovalently loaded onto these GO-PEG/ZnS:Mn composite particles. High drug entrapment efficiency (100 % due to more GO surface available for binding), slow in vitro release of drug (ca. 40 % at acidic pH), better HeLa cancer cell killing efficiency (ca. 85 %), and cell labeling capability are the important traits of these DOX-loaded nanocomposites. It is believed these novel fluorescent [GO-PEG/ZnS:Mn]-DOX composite particles have great potential as theranostic agents in cancer diagnosis and therapy.

NANOCRYSTALS; GRAPHENE oxide; NANOPARTICLES; ANTINEOPLASTIC agents; CARBON

ChemPlusChem, 2016, Vol 81, Issue 1, p100

2192-6506

Academic Journal

10.1002/cplu.201500349