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Beilstein J. Nanotechnol. 2020, 11, 1082–1091, doi:10.3762/bjnano.11.93
Figure 1: XRD patterns of (a) NAA and (b) ZnAl-NAA-LDH.
Figure 2: (a) TG-DSC curves and (b) TG-MS curves of ZnAl-NAA-LDH.
Figure 3: Nitrogen adsorption and desorption isotherms for ZnAl-NAA-LDH.
Figure 4: Representative SEM images of (a) NAA (3000× magnification), (b) NAA (10000× magnification), (c) ZnA...
Figure 5: Germination rate in bean seeds covered with: control, M1 = neat alginate, M2 = alginate + ZnAl-CO3-...
Figure 6: GSI in bean seeds covered with: Control, M1 = neat alginate, M2 = alginate + ZnAl-CO3-LDH, M3 = alg...
Figure 7: Values of: (a) root surface area, (b) root fresh matter and (c) shoot length for the beans being th...
Figure 8: Scheme of the bioassays.
Beilstein J. Nanotechnol. 2018, 9, 2936–2946, doi:10.3762/bjnano.9.272
Figure 1: Schematic representation of (a) graphene oxide and reduced graphene oxide structures, (b) polaron a...
Figure 2: AFM images of rGO-25 sample, and rGO/PANI and rGO/PANI/hexNb nanocomposites at different scan sizes...
Figure 3: AFM images of rGO/PANI/hexNb nanocomposite at 3 μm scan size.
Figure 4: XPS spectra at the C 1s core level of GO and rGO samples prepared by reactions at 25 °C for 7 days ...
Figure 5: XPS spectra at N 1s core level of PANI and nanocomposites rGO/PANI and rGO/PANI/hexNb.
Figure 6: (a) Raman spectra (λ0 = 632.8 nm) of PANI, rGO/PANI and rGO/PANI/hexNb in the range of 1050–1750 cm...
Figure 7: CV curves of PANI, rGO, rGO/PANI , PANI/hexNb and rGO/PANI/hexNb at 25 mV·s−1 scan rate. Electrolyt...