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Beilstein J. Nanotechnol. 2023, 14, 141–150, doi:10.3762/bjnano.14.15
Figure 1: Diagram of EMAI (a); 3D diagram of the copper porous spinneret (b) and its corresponding longitudin...
Figure 2: EMAI spinning processes at different air flow rates (150 m3/h (a), 100 m3/h (b), 50 m3/h (c), and 0...
Figure 3: Morphology and corresponding diameter distribution of nanofibers obtained by EMAI at different air ...
Figure 4: Morphology and corresponding diameter distribution of nanofibers obtained by EMAI at different volt...
Figure 5: The yields of nanofibers obtained with different spinning voltages at the air flow rates of 50 m3/h...
Figure 6: Electric field distribution at the porous spinneret at different voltages (40 kV (a), 50 kV (b), an...
Figure 7: Distribution of electric field intensity at the top of spinneret under different voltages (40 kV (a...
Figure 8: Radial (a) and axial (b) electric field distributions of the porous spinneret at different voltages....
Beilstein J. Nanotechnol. 2020, 11, 1280–1290, doi:10.3762/bjnano.11.112
Figure 1: Diagram of the preparation process of the ordered porous CGCNFs. Setup scheme adapted from [33], distri...
Figure 2: FE-SEM images of (a) disordered PGCNFs synthesized via electrospinning (DPGCNFs) with an average di...
Figure 3: (a) FTIR spectra of PAN nanofibers (dark green), graphene (light green), PGCNFs (purple) and CGCNFs...
Figure 4: (a) Nitrogen adsorption–desorption isotherms and (b) their corresponding PSD curves determined by t...
Figure 5: CV curves of the CGCNF electrodes at a scan rate of 25 mV/s.
Figure 6: Charge/discharge curves of samples in a 6 M KOH electrolyte solution.
Figure 7: Electrochemical impedance spectra of the samples represented as Nyquist plots.