Add to ORKGWe used enhanced piezo-response force microscopy (E-PFM) to investigate both ferroelastic and ferroelectric nanodomains in thin films of the simple multi-ferroic system PbZr(0.3)Ti(0.7)O(3) (PZT). We show how the grains are organized into a new type of elastic domain bundles of the well-known periodic elastic twins. Here we present these bundle domains and discuss their stability and origin. Moreover, we show that they can arrange in such a way as to release strain in a more effective way than simple twinning. Finally, we show that these bundle domains can arrange to form the macroscopic ferroelectric domains that constitute the basis of ferroelectric-based memory devices
We investigated the dynamics and relaxation of 90° domains in 60-nm-thick lead-zirconium titanate (P...
The imminent inability of silicon-based memory devices to satisfy Moore?s Law is approaching rapidly...
We study the electromechanical behavior of lead zirconate titanate ferroelectric ceramics (PZT), by ...
Thin films of inorganic materials are used in diverse applications, typically in polycrystalline for...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
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...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The imminent inability of silicon-based memory devices to satisfy Moore's Law is approaching rapidly...
Most ferroelectrics are also ferroelastics (hysteretic stress-strain relationship and response to me...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
Most ferroelectrics are also ferroelastics (hysteretic stress-strain relationship and response to me...
© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. Most ferroelectrics are also ferroelastics (hyste...
We investigated the dynamics and relaxation of 90° domains in 60-nm-thick lead-zirconium titanate (P...
The imminent inability of silicon-based memory devices to satisfy Moore?s Law is approaching rapidly...
We study the electromechanical behavior of lead zirconate titanate ferroelectric ceramics (PZT), by ...
Thin films of inorganic materials are used in diverse applications, typically in polycrystalline for...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
The distribution and evolution of ferroelectric and ferroelastic nanodomains in a polycrystalline (0...
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...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
The imminent inability of silicon-based memory devices to satisfy Moore's Law is approaching rapidly...
Most ferroelectrics are also ferroelastics (hysteretic stress-strain relationship and response to me...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
Most ferroelectrics are also ferroelastics (hysteretic stress-strain relationship and response to me...
© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. Most ferroelectrics are also ferroelastics (hyste...
We investigated the dynamics and relaxation of 90° domains in 60-nm-thick lead-zirconium titanate (P...
The imminent inability of silicon-based memory devices to satisfy Moore?s Law is approaching rapidly...
We study the electromechanical behavior of lead zirconate titanate ferroelectric ceramics (PZT), by ...