Oxygen vacancy-enhanced photothermal performance and reactive oxygen species generation for synergistic tumour therapy

References

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914Oxygen vacancy-enhanced photothermal performance and reactive oxygen species generation for synergistic tumour therapyhttps://doi.org/10.1039/D0CC02536DComposite

Materials

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BET
b nanozyme
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914MnO2@Au100nmTEMThe transmission electron microscope (TEM) images demonstrated Au nanoparticles (Au NPs) in situ grown in ∼100 nm of MnO2 nanosheets (Fig. 1B). The elemental mapping images of MnO2@Au confirmed the coexistence of Mn, O, C, N and Au elements (Fig. 1C).

Kinetics

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914MnO2@Aumulti-functionalitiesROS914

Applications

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914MnO2@Auenhanced photothermal performance and reactive oxygen species generationtumour