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Beilstein J. Nanotechnol. 2021, 12, 1115–1126, doi:10.3762/bjnano.12.83
Figure 1: CL KPFM measurements over an Au/Si/Al trench: (a) topography; (b) optical view of the AFM probe dur...
Figure 2: Consecutive taps performed during OP AM-KPFM operated on top of the PFT mode. The bias modulation (...
Figure 3: The AFM deflection response to three sinusoidal pulses of bias modulation during the out-of-contact...
Figure 4: Average and standard deviation values of CPD determined from parabolic bias dependence and time ser...
Figure 5: Comparison of CPD traces from OP AM-KPFM, CL AM-KPFM, and CL FM-KPFM in both measurement configurat...
Figure 6: Separation of the average contributions of the tip and cantilever to the measured OL AM-KPFM signal...
Figure 7: Maps from OL AM-KPFM operated in PFT mode over an Al/Si/Au trench: (a) topography extracted from th...
Figure 8: Histograms of the OL AM-KPFM measurements over the Al and Au regions: (a) The measurements were mad...
Beilstein J. Nanotechnol. 2017, 8, 863–871, doi:10.3762/bjnano.8.88
Figure 1: (a) Cross section schematic of the nanoporous organosilicate glass (OSG) fin structures investigate...
Figure 2: (a) Transmission FTIR and AFM-IR spectra of the symmetric SiC–H3 deformation mode from a nanoporous...
Figure 3: SiC–H3 absorbance (AFM-IR) and Young’s modulus (CR-AFM) as functions of the feature size for unpatt...
Figure 4: (a) and (b) AFM-IR spectra of the symmetric SiC–H3 deformation mode from the patterned nanoporous o...
Beilstein J. Nanotechnol. 2014, 5, 278–288, doi:10.3762/bjnano.5.30
Figure 1: a) UAFM configuration with a mechanical vibration applied to the base of the cantilever and signal ...
Figure 2: Amplitude ratio and phase of the a) first and b) second free eigenmodes of a cantilever vibrated in...
Figure 3: Amplitude ratio and phase of the first eigenmode along the cantilever in a) the UAFM and c) AFAM co...
Figure 4: Amplitude ratio and phase of the second eigenmode along the cantilever in a) the UAFM and c) AFAM c...
Figure 5: Amplitude ratio, frequency shift, and phase of the first eigenmode versus contact stiffness in UAFM...
Figure 6: Amplitude ratio, frequency shift, and phase of the first eigenmode versus contact stiffness in UAFM...
Figure 7: a) Frequency shift, b) normalized amplitude, c) phase, and d) quality factor Q of the first eigenmo...
Figure 8: a) Frequency shift, b) normalized amplitude, c) phase, and d) quality factor Q of the second eigenm...
Figure 9: The frequency error introduced by a PLL in measuring the shift of the contact resonance frequency o...