Electron Irradiation Effects on N and Fe Doped Carbon Dots and the Application in Radiotherapy of Lung Cancer.
[INTRODUCTION] Carbon dots (CDs) have great potential application in disease treatment, but there were rare detailed reports on the application of CDs in radiotherapy so far.
APA
Bai H, Zhang J, et al. (2026). Electron Irradiation Effects on N and Fe Doped Carbon Dots and the Application in Radiotherapy of Lung Cancer.. International journal of nanomedicine, 21, 566889. https://doi.org/10.2147/IJN.S566889
MLA
Bai H, et al.. "Electron Irradiation Effects on N and Fe Doped Carbon Dots and the Application in Radiotherapy of Lung Cancer.." International journal of nanomedicine, vol. 21, 2026, pp. 566889.
PMID
41869403
Abstract
[INTRODUCTION] Carbon dots (CDs) have great potential application in disease treatment, but there were rare detailed reports on the application of CDs in radiotherapy so far.
[METHODS] In this study, N and Fe doped CDs (N-Fe-CDs) were prepared with a one-step hydrothermal method. The properties of N-Fe-CDs before and after 10 MeV electron beam irradiation (EBI) were characterized by TEM, XRD, XPS, FT-IR, and PL. Cell toxicity experiments and irradiation experiments on tumor-bearing mice were conducted to explore the EBI effects and N-Fe-CDs for the efficacy of the synergistic treatment of lung cancer.
[RESULTS AND DISCUSSION] The fluorescence intensity of N-Fe-CDs was significantly weakened after EBI. When the N-Fe-CDs' concentration was ≤2.7 × 10 mg/mL, its cytotoxicity was almost zero. The tumor regression in the "CDs solution injection followed by EBI" group was significantly greater than other groups. EBI can weaken fluorescence of the N-Fe-CDs and the N-Fe-CDs can enhance the therapeutic effect of electron beam therapy for lung cancer.
[METHODS] In this study, N and Fe doped CDs (N-Fe-CDs) were prepared with a one-step hydrothermal method. The properties of N-Fe-CDs before and after 10 MeV electron beam irradiation (EBI) were characterized by TEM, XRD, XPS, FT-IR, and PL. Cell toxicity experiments and irradiation experiments on tumor-bearing mice were conducted to explore the EBI effects and N-Fe-CDs for the efficacy of the synergistic treatment of lung cancer.
[RESULTS AND DISCUSSION] The fluorescence intensity of N-Fe-CDs was significantly weakened after EBI. When the N-Fe-CDs' concentration was ≤2.7 × 10 mg/mL, its cytotoxicity was almost zero. The tumor regression in the "CDs solution injection followed by EBI" group was significantly greater than other groups. EBI can weaken fluorescence of the N-Fe-CDs and the N-Fe-CDs can enhance the therapeutic effect of electron beam therapy for lung cancer.
MeSH Terms
Animals; Lung Neoplasms; Carbon; Quantum Dots; Mice; Electrons; Humans; Cell Line, Tumor; Iron; Nitrogen; Mice, Inbred BALB C; Cell Survival
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