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Beilstein J. Nanotechnol. 2019, 10, 2428–2439, doi:10.3762/bjnano.10.233
Scheme 1: BNNT (1) functionalization with oligoperoxide (2), and subsequent grafting copolymerization of acry...
Figure 1: Suspensions of native BNNTs (a) and P(AA-co-FA)-functionalized BNNTs (b) obtained at a concentratio...
Figure 2: TGA curves of pristine BNNTs (a), oligoperoxide-functionalized BNNTs (b) and P(AA-co-FA)-functional...
Figure 3: FTIR spectrum of pure BNNT (a) and P(AA-co-FA)-functionalized BNNTs (b).
Figure 4: UV–vis spectra of BNNTs, oligoperoxide-functionalized BNNTs and P(AA-co-FA)-functionalized BNNTs (a...
Figure 5: SEM image of pristine BNNTs (a) and P(AA-co-FA)-functionalized BNNTs (b) after dispersion in water.
Figure 6: Size-distribution profile of BNNTs (black squares) and P(AA-co-FA)-functionalized BNNTs (green circ...
Scheme 2: Forms of fluorescein acrylate at different pH [49].
Figure 7: UV–vis spectra of a water suspension of P(AA-co-FA)-functionalized BNNTs (1 mg/mL) at various pH va...
Figure 8: Fluorescence intensity of P(AA-co-FA)-functionalized BNNTs in solution under different pH condition...
Figure 9: Fluorescent images recorded for human normal prostate epithelium cellular line (PNT1A) (a) and huma...