%0 Journal Article %1 wang2013bifeo %A Wang, Yi %A Nelson, Chris %A Melville, Alexander %A Winchester, Benjamin %A Shang, Shunli %A Liu, Zi-Kui %A Schlom, Darrell G %A Pan, Xiaoqing %A Chen, Long-Qing %D 2013 %I APS %J Physical review letters %K BiFeO3 domain_walls experiment ferroelectric_photovoltaics theory %N 26 %P 267601 %T BiFeO3 domain wall energies and structures: a combined experimental and density functional theory+U study %V 110 %X We determined the atomic structures and energies of 109°, 180°, and 71° domain walls in BiFeO3, combining density functional theory+U calculations and aberration-corrected transmission electron microscopy images. We find a substantial Bi sublattice shift and a rather uniform Fe sublattice across the walls. The calculated wall energies (γ) follow the sequence γ109<γ180<γ71 for the 109°, 180°, and 71° walls. We attribute the high 71° wall energy to an opposite tilting rotation of the oxygen octahedra and the low 109° wall energy to the opposite twisting rotation of the oxygen octahedra across the domain walls.

@article{wang2013bifeo, abstract = {We determined the atomic structures and energies of 109°, 180°, and 71° domain walls in BiFeO3, combining density functional theory+U calculations and aberration-corrected transmission electron microscopy images. We find a substantial Bi sublattice shift and a rather uniform Fe sublattice across the walls. The calculated wall energies (γ) follow the sequence γ109<γ180<γ71 for the 109°, 180°, and 71° walls. We attribute the high 71° wall energy to an opposite tilting rotation of the oxygen octahedra and the low 109° wall energy to the opposite twisting rotation of the oxygen octahedra across the domain walls.}, added-at = {2018-08-19T23:34:45.000+0200}, author = {Wang, Yi and Nelson, Chris and Melville, Alexander and Winchester, Benjamin and Shang, Shunli and Liu, Zi-Kui and Schlom, Darrell G and Pan, Xiaoqing and Chen, Long-Qing}, biburl = {https://www.bibsonomy.org/bibtex/2a512ab89e6a6db7e83dc68a220a3ceee/skoerbel}, interhash = {a641985cdeb574745643b506a5316c43}, intrahash = {a512ab89e6a6db7e83dc68a220a3ceee}, journal = {Physical review letters}, keywords = {BiFeO3 domain_walls experiment ferroelectric_photovoltaics theory}, number = 26, pages = 267601, publisher = {APS}, timestamp = {2018-08-19T23:56:31.000+0200}, title = {BiFeO3 domain wall energies and structures: a combined experimental and density functional theory+U study}, volume = 110, year = 2013 }