Add to ORKGFerroelectric domain walls hold great promise as functional two-dimensional materials because of their unusual electronic properties. Particularly intriguing are the so-called charged walls where a polarity mismatch causes local, diverging electrostatic potentials requiring charge compensation and hence a change in the electronic structure. These walls can exhibit significantly enhanced conductivity and serve as a circuit path. The development of all-domain-wall devices, however, also requires walls with controllable output to emulate electronic nano-components such as diodes and transistors. Here we demonstrate electric-field control of the electronic transport at ferroelectric domain walls. We reversibly switch from resistive to conductiv...
Ferroelectric domain walls are attracting broad attention as atomic-scale switches, diodes, and mobi...
Low-temperature electrostatic force microscopy (EFM) is used to probe unconventional domain walls in...
A new paradigm of domain wall nanoelectronics has emerged recently, in which the domain wall in a fe...
Ferroelectric domain walls hold great promise as functional two-dimensional materials because of the...
Domain walls are attracting significant interest in the field of (multi-)ferroic materials owing to ...
The direct current (dc) conductivity and emergent functionalities at ferroelectric domain walls are ...
The direct current (dc) conductivity and emergent functionalities at ferroelectric domain walls are ...
Domain walls in ferroelectric semiconductors show promise as multifunctional two-dimensional element...
Ferroelectric domain walls are quasi-2D systems that show great promise for the development of nonvo...
Ferroelectric domain walls have emerged as a new type of interface in which the dynamic characterist...
Low-temperature electrostatic force microscopy (EFM) is used to probe unconventional domain walls in...
Transition metal oxides hold great potential for the development of new device paradigms because of ...
Conductive domain walls (DWs) in ferroic oxides as device elements are a highly attractive research ...
peer reviewedDomain walls in ferroelectric materials have tantalizing potential in disruptive memory...
Acceptor and donor doping is a standard for tailoring semiconductors. More recently, doping was adap...
Ferroelectric domain walls are attracting broad attention as atomic-scale switches, diodes, and mobi...
Low-temperature electrostatic force microscopy (EFM) is used to probe unconventional domain walls in...
A new paradigm of domain wall nanoelectronics has emerged recently, in which the domain wall in a fe...
Ferroelectric domain walls hold great promise as functional two-dimensional materials because of the...
Domain walls are attracting significant interest in the field of (multi-)ferroic materials owing to ...
The direct current (dc) conductivity and emergent functionalities at ferroelectric domain walls are ...
The direct current (dc) conductivity and emergent functionalities at ferroelectric domain walls are ...
Domain walls in ferroelectric semiconductors show promise as multifunctional two-dimensional element...
Ferroelectric domain walls are quasi-2D systems that show great promise for the development of nonvo...
Ferroelectric domain walls have emerged as a new type of interface in which the dynamic characterist...
Low-temperature electrostatic force microscopy (EFM) is used to probe unconventional domain walls in...
Transition metal oxides hold great potential for the development of new device paradigms because of ...
Conductive domain walls (DWs) in ferroic oxides as device elements are a highly attractive research ...
peer reviewedDomain walls in ferroelectric materials have tantalizing potential in disruptive memory...
Acceptor and donor doping is a standard for tailoring semiconductors. More recently, doping was adap...
Ferroelectric domain walls are attracting broad attention as atomic-scale switches, diodes, and mobi...
Low-temperature electrostatic force microscopy (EFM) is used to probe unconventional domain walls in...
A new paradigm of domain wall nanoelectronics has emerged recently, in which the domain wall in a fe...