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Beilstein J. Nanotechnol. 2020, 11, 1072–1081, doi:10.3762/bjnano.11.92
Figure 1: Fluid-conveying multiwalled piezoelectric nanosensor. (a) Illustration of van der Walls forces betw...
Figure 2: The surface/interface effects on DNF versus the L/R1 ratio for three vibrational modes.
Figure 3: The effects of different boundary conditions for fluid velocity on DNF of FC-MWPENS.
Figure 4: The effects of different boundary conditions for pull-in voltage on DNF of FC-MWPENS.
Figure 5: The effects of surface/interface Lame’s constants λI,S for fluid velocity on DNF of SS FC-MWPENS.
Figure 6: The effects of surface/interface Lame’s constants λI,S for pull-in voltage on DNF of SS FC-MWPENS.
Figure 7: The effects of surface/interface Lame’s constants µI,S for fluid velocity on DNF of SS FC-MWPENS.
Figure 8: The effects of surface/interface Lame’s constants µI,S for pull-in voltage on DNF of SS FC-MWPENS.
Figure 9: The effects of surface/interface residual stress for fluid velocity on DNF of SS FC-MWPENS.
Figure 10: The effects of surface/interface residual stress for pull-in voltage on DNF of SS FC-MWPENS.
Figure 11: The effects of surface piezoelectricity constants for fluid velocity on DNF of SS FC-MWPENS.
Figure 12: The effects of surface piezoelectricity constants for pull-in voltage on DNF of SS FC-MWPENS.
Figure 13: The effect of surface ρS and interface ρI mass density for fluid velocity on DNF of SS FC-MWPENS.
Figure 14: The effect of surface ρS and interface ρI mass density for pull-in voltage on DNF of SS FC-MWPENS.
Figure 15: The effects of surface and interface parameters for fluid velocity on DNF of SS FC-MWPENS.
Figure 16: The effects of surface and interface parameters for pull-in voltage on DNF of SS FC-MWPENS.