▎ 摘　　要

In this paper, we designed a novel near-infrared aptamer-mediated fluorescence "turn off-on" nanosensor for highly sensitive and selective detection of kanamycin based on CuInS2 quantum dots (QDs)@graphene oxide (GO) nanocomposites. The carboxy groups on the surface of CuInS2 QDs (modified with mercaptopropionic acid) were conjugated with amino terminal kanamycin-binding Ky2 aptamer to form the Ky2-CuInS2 QDs in the presence of 1-(3-dimethylaminopropyl)-3-ethylcarbodiimide hydrochloride and N-hydroxysuccinimide. Then, the Ky2-CuInS2 QDs were facilely immobilized on the surface of GO through p-p stacking interaction between the nucleobases and GO, which caused the fluorescence of Ky2-CuInS2 QDs "turned off". In the presence of kanamycin, the Ky2-CuInS2 QDs desorb from the surface of GO and bind to kanamycin with high affinity and specificity. As a result, the quenched fluorescence "turned on". Under the optimum conditions, there was a good linear relationship between I/I-0 (I and I-0 were the fluorescence intensity of Ky2-CuInS2 QDs@GO in the presence and absence of kanamycin, respectively) and kanamycin concentration in the range of 0.3-45 nmol L-1 (0.174-26.1 mg L-1), with the detection limit of 0.12 nmol L-1 (0.070 mg L-1). The present nanosensor was utilized to detect kanamycin in the human serum, urine and milk samples with satisfactory results.