Add to ORKGWe investigate the effect of chemical doping on the electric and magnetic domain pattern in multiferroic hexagonal ErMnO3. Hole- and electron doping are achieved through the growth of Er1-xCaxMnO3 and Er1-xZrxMnO3 single crystals, which allows for a controlled introduction of divalent and tetravalent ions, respectively. Using conductance measurements, piezoresponse force microscopy and nonlinear optics we study doping-related variations in the electronic transport and image the corrsponding ferroelectric and antiferromagnetic domains. We find that moderate doping levels allow for adjusting the electronic conduction properties of ErMnO3 without destroying its characteristic domain patterns. Our findings demonstrate the feasibility of chemica...
Ferroelectric domain walls hold great promise as functional two-dimensional materials because of the...
Improper ferroelectrics are described by two order parameters: a primary one, driving a transition t...
A current challenge in the field of magnetoelectric multiferroics is to identify systems that allow ...
We investigate the effect of chemical doping on the electric and magnetic domain pattern in multifer...
Acceptor and donor doping is a standard for tailoring semiconductors. More recently, doping was adap...
Emerging properties of domain boundaries define the emerging field of domain boundary engineering. F...
Domain walls are attracting significant interest in the field of (multi-)ferroic materials owing to ...
We studied the effect of Fe doping on structural, magnetic, and dielectric properties of hexagonal E...
We deduce the intrinsic conductivity properties of the ferroelectric domain walls around the topolog...
Transition metal oxides hold great potential for the development of new device paradigms because of ...
Electronic domain-wall conductance is controlled by chemical aliovalent doping in the p-type semicon...
We report an electric-field poling study of the geometrically-driven improper ferroelectric h-ErMnO3...
Ferroelectric domain walls are quasi-2D systems that show great promise for the development of nonvo...
The transport properties of domain walls in oxygen deficient multiferroic YMnO3 single crystals have...
We have investigated the structural, magnetic, and ferroelectric properties of magnetically frustrat...
Ferroelectric domain walls hold great promise as functional two-dimensional materials because of the...
Improper ferroelectrics are described by two order parameters: a primary one, driving a transition t...
A current challenge in the field of magnetoelectric multiferroics is to identify systems that allow ...
We investigate the effect of chemical doping on the electric and magnetic domain pattern in multifer...
Acceptor and donor doping is a standard for tailoring semiconductors. More recently, doping was adap...
Emerging properties of domain boundaries define the emerging field of domain boundary engineering. F...
Domain walls are attracting significant interest in the field of (multi-)ferroic materials owing to ...
We studied the effect of Fe doping on structural, magnetic, and dielectric properties of hexagonal E...
We deduce the intrinsic conductivity properties of the ferroelectric domain walls around the topolog...
Transition metal oxides hold great potential for the development of new device paradigms because of ...
Electronic domain-wall conductance is controlled by chemical aliovalent doping in the p-type semicon...
We report an electric-field poling study of the geometrically-driven improper ferroelectric h-ErMnO3...
Ferroelectric domain walls are quasi-2D systems that show great promise for the development of nonvo...
The transport properties of domain walls in oxygen deficient multiferroic YMnO3 single crystals have...
We have investigated the structural, magnetic, and ferroelectric properties of magnetically frustrat...
Ferroelectric domain walls hold great promise as functional two-dimensional materials because of the...
Improper ferroelectrics are described by two order parameters: a primary one, driving a transition t...
A current challenge in the field of magnetoelectric multiferroics is to identify systems that allow ...