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Beilstein J. Nanotechnol. 2024, 15, 71–82, doi:10.3762/bjnano.15.7
Figure 1: (a) SEM image of BBR powder. (b) TEM image of BBR NPs. (c) Digital image of the electrospun nanofib...
Figure 2: FTIR spectra of (a) PLA, (b) BBR/PLA, and (c) BBR NPs/PLA nanofiber scaffolds at different wavenumb...
Figure 3: (A) Raman spectra of (a) PLA, (b) BBR/PLA, and (c) BBR NPs/PLA nanofiber scaffolds and (B) XRD patt...
Figure 4: In vitro BBR release profiles of (a) BBR/PLA and (b) BBR NPs/PLA nanofiber scaffolds. (c, d, e, f) ...
Figure 5: Proposed mechanism of BBR release from BBR/PLA and BBR NPs/PLA nanofiber scaffolds.
Figure 6: The growth curves of MRSA incubated in nutrient broth (negative control) and treated with BBR/PLA a...
Figure 7: Morphology of (a) control MA-104 cells and (b) MA-104 cells treated with BBR NPs/PLA nanofiber scaf...
Beilstein J. Nanotechnol. 2022, 13, 641–652, doi:10.3762/bjnano.13.56
Figure 1: UV–vis spectra of BBR and BBR NPs in distilled water at a concentration of 2.0 mg/mL.
Figure 2: FTIR spectra of (a) glycerol, (b) pure BBR, and (c) BBR NPs at a concentration of 2.0 mg/mL.
Figure 3: Morphology of (a) pure BBR and (b) BBR NPs and (c) DLS measurement of BBR NPs.
Figure 4: Antibacterial activity of negative control, pure BBR at the saturation concentration of 2.0 mg/mL, ...
Figure 5: Agar plates inoculated with solutions incubated with pure BBR at the saturation concentration of 2....
Figure 6: Antibacterial efficacy of negative control, pure BBR (2.0 mg/mL), and BBR NPs at concentrations of ...
Figure 7: Fluorescence stereomicroscopy images of MRSA (a) without and (b) after treatment with BBR NPs; cros...
Figure 8: Experimental design for testing the inhibitory concentrations of BBR NPs and BBR against bacterial ...