Polyaniline-grafted nanodiamond (PAN-ND) nanoparticles were fabricated by polymerizing aniline at the surface of amine-modified NDs for efficient photothermal therapy (PTT). A series of PAN from different aniline concentrations were also prepared to compare the properties and the efficiency of PTT. The polymerization rate of aniline was faster in the presence of NDs than that of aniline alone. Compared to PAN nanoparticles, PAN-ND has a spherical shape, smaller size, and ultimately higher cellular uptake efficiency. The temperature of aqueous PAN-ND dispersion increased to 44.4 °C after laser irradiation for 5 min. In addition, the UV absorbance intensity of PAN-ND increased at the lower pH at the near infrared (NIR) region, resulting in an enhanced photothermal effect at a tumor site. Notably, the viability of HeLa cells treated with PAN-ND decreased by less than 20%, suggesting the high efficiency of PTT. The PAN-ND can be a potential candidate for efficient photothermal tumor therapy.
Keywords: Grafting; Nanodiamond; Photothermal therapy; Polyaniline; Tumor treatment.
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