Piezoresponse Force Microscopy is a powerful but delicate nanoscale technique that measures the electromechanical response resulting from the application of a highly localized electric field. Though mechanical response is normally due to piezoelectricity, other physical phenomena, especially electrostatic interaction, can contribute to the signal read. We address this problematic through the use of longer ultra-stiff probes providing state of the art sensitivity, with the lowest electrostatic interaction and avoiding working in high frequency regime. In order to find this solution we develop a theoretical description addressing the effects of electrostatic contributions in the total cantilever vibration and its quantification for different ...
Coupling between electrical and mechanical phenomena is very often in nature. Apparently, it underpi...
Driven by the concern about the harmful effects of lead-containing piezoelectric ceramics on the env...
Piezoelectric force microscopy (PFM) has demonstrated to be a powerful tool to characterize ferroele...
Piezoresponse force microscopy (PFM) probes the mechanical deformation of a sample in response to an...
The ability to reliably measure electromechanical properties is crucial to the advancement of materi...
Here we study the piezoresponse of epitaxial ferroelectric samples excited through top electrode str...
Surface displacements of a few picometers, occurring after application of an electric potential to p...
Piezoresponse force-microscopy (PFM) has become the standard tool to investigate ferroelectrics on t...
Converse flexoelectricity is a mechanical stress induced by an electric polarization gradient. It ca...
We report on qualitative and quantitative implications of the sample-tip interaction in piezorespons...
There has been tremendous interest in piezoelectricity at the nanoscale, for example in nanowires an...
Piezoresponse Force Microscopy: A Window into Electromechanical Behavior at the Nanoscale Piezorespo...
In this paper, we review recent advances in piezoresponse force microscopy (PFM) with respect to nan...
The analytical solution for the displacements of an anisotropic piezoelectric material in the unifor...
In order to determine the origin of image contrast in piezoresponse force microscopy (PFM), analytic...
Coupling between electrical and mechanical phenomena is very often in nature. Apparently, it underpi...
Driven by the concern about the harmful effects of lead-containing piezoelectric ceramics on the env...
Piezoelectric force microscopy (PFM) has demonstrated to be a powerful tool to characterize ferroele...
Piezoresponse force microscopy (PFM) probes the mechanical deformation of a sample in response to an...
The ability to reliably measure electromechanical properties is crucial to the advancement of materi...
Here we study the piezoresponse of epitaxial ferroelectric samples excited through top electrode str...
Surface displacements of a few picometers, occurring after application of an electric potential to p...
Piezoresponse force-microscopy (PFM) has become the standard tool to investigate ferroelectrics on t...
Converse flexoelectricity is a mechanical stress induced by an electric polarization gradient. It ca...
We report on qualitative and quantitative implications of the sample-tip interaction in piezorespons...
There has been tremendous interest in piezoelectricity at the nanoscale, for example in nanowires an...
Piezoresponse Force Microscopy: A Window into Electromechanical Behavior at the Nanoscale Piezorespo...
In this paper, we review recent advances in piezoresponse force microscopy (PFM) with respect to nan...
The analytical solution for the displacements of an anisotropic piezoelectric material in the unifor...
In order to determine the origin of image contrast in piezoresponse force microscopy (PFM), analytic...
Coupling between electrical and mechanical phenomena is very often in nature. Apparently, it underpi...
Driven by the concern about the harmful effects of lead-containing piezoelectric ceramics on the env...
Piezoelectric force microscopy (PFM) has demonstrated to be a powerful tool to characterize ferroele...