Add to ORKGThe distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (001)-oriented thin film of the simple multiferroic PbZr0.3Ti0.7O3 (PZT) are presented. With an external electric field applied between the probe tip and the PZT sample, ferroelastic domains were switched by rotating both in and out of plane, with partial conversion from a-oriented regions to c-oriented regions. After multiple such cycles, grains were observed to buckle as a direct consequence of the lateral size change arising from the conversion towards complete c-orientation. The factors determining the measured deflection of the cantilever in piezoresponse force microscopy were explored, highlighting the conditions under which quantitative ...
We used enhanced piezo-response force microscopy (E-PFM) to investigate both ferroelastic and ferroe...
Dottorato di Ricerca in Science and Technologies of Mesophases & Molecular Materials, (STM3), Ciclo ...
International audienceThe mechanical switching of ferroelectric domains is achieved in PbZr0.2Ti0.8O...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
The response to a local, tip-induced electric field of ferroelastic domains in thin polycrystalline ...
Thin films of inorganic materials are used in diverse applications, typically in polycrystalline for...
Ferroelectric materials have found a wide range of applications in data storage devices, sensors and...
We report a voltage controlled reversible creation and annihilation of <i>a</i>-axis oriented ∼10 nm...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
Ferroelectric oxide thin films are currently used in ultra high density non-volatile memories (FeRAM...
Domains and domain walls are critical in determining the response of ferroelectrics, and the ability...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We used enhanced piezo-response force microscopy (E-PFM) to investigate both ferroelastic and ferroe...
Dottorato di Ricerca in Science and Technologies of Mesophases & Molecular Materials, (STM3), Ciclo ...
International audienceThe mechanical switching of ferroelectric domains is achieved in PbZr0.2Ti0.8O...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
The response to a local, tip-induced electric field of ferroelastic domains in thin polycrystalline ...
Thin films of inorganic materials are used in diverse applications, typically in polycrystalline for...
Ferroelectric materials have found a wide range of applications in data storage devices, sensors and...
We report a voltage controlled reversible creation and annihilation of <i>a</i>-axis oriented ∼10 nm...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
Ferroelectric oxide thin films are currently used in ultra high density non-volatile memories (FeRAM...
Domains and domain walls are critical in determining the response of ferroelectrics, and the ability...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We used enhanced piezo-response force microscopy (E-PFM) to investigate both ferroelastic and ferroe...
Dottorato di Ricerca in Science and Technologies of Mesophases & Molecular Materials, (STM3), Ciclo ...
International audienceThe mechanical switching of ferroelectric domains is achieved in PbZr0.2Ti0.8O...