摘要
WS2 nanosheets were prepared by the solvent-thermal method in the presence of n-butyl lithium, then the exfoliation under the condition of ultrasound. The formed WS2 nanosheets were conjugated with thiol-modified polyethylene glycol (PEG-SH) to improve the biocompatibility. The nanosheets (WS2- PEG) were able to inhibit the growth of a model HeLa cancer cell line in vitro due to the high photothermal conversion efficiency of ~35% irradiated by an 808 nm laser (1 W/cm^2). As a proof of concept, WS2-PEG nanosheets with the better X-ray attenuation property than the clinical computed tomography (CT) contrast agent (lohexol) could be performed for CT imaging of the lymph vessel.
WS2 nanosheets were prepared by the solvent-thermal method in the presence of n-butyl lithium, then the exfoliation under the condition of ultrasound. The formed WS2 nanosheets were conjugated with thiol-modified polyethylene glycol (PEG-SH) to improve the biocompatibility. The nanosheets (WS2- PEG) were able to inhibit the growth of a model HeLa cancer cell line in vitro due to the high photothermal conversion efficiency of ~35% irradiated by an 808 nm laser (1 W/cm^2). As a proof of concept, WS2-PEG nanosheets with the better X-ray attenuation property than the clinical computed tomography (CT) contrast agent (lohexol) could be performed for CT imaging of the lymph vessel.
基金
partially supported by National Natural Science Foundation of China (Nos.21271130,21371122,and 11275050)
Program for Changjiang Scholars and Innovative Research Team in University (No.IRT1269)
Shanghai Science and Technology Development Fund (Nos.12ZR1421800 and 13520502800)
Shanghai Pujiang Program (No.13PJ1406600)
Shanghai Municipal Education Commission (No.13ZZ110)
Shanghai Normal University (Nos.DXL122 and SK201339)
International Joint Laboratory on Resource Chemistry (IJLRC)
