Ferroic and Multiferroic nanomaterials (M.Ghidini)
We combine local and global measurement techniques to study the unique functional properties that arise in nanosized ferroic and multiferroic materials.
Key publications
M. Ghidini, R. Mansell, F. Maccherozzi, X. Moya, L. C. Phillips, W. Yan, D. Pesquera, C. H. W. Barnes, R. P. Cowburn, J.-M. Hu, S. S. Dhesi and N. D. Mathur
Shear-strain mediated magnetoelectric effects revealed by imaging
Nature Mater., 18, 840 (2019)
D. Pesquera, E. Khestanova, M. Ghidini, S. Zhang, A. P. Rooney, F. Maccherozzi, P. Riego, S. Farokhipoor, J. Kim, X. Moya, M. E. Vickers, N. A. Stelmashenko, S. J. Haigh, S. S. Dhesi and N. D. Mathur,
Large magnetoelectric coupling in multiferroic oxide heterostructures assembled via epitaxial lift-off
Nature Comm., 11, 3190 (2020)
M. Ghidini, R. Mansell, R. Pellicelli, D. Pesquera, B. Nair, X. Moya, S. Farokhipoor, F. Maccherozzi, C. H. W. Barnes, R. P. Cowburn, S. S. Dhesi and N.D. Mathur
Voltage-driven annihilation and creation of magnetic vortex states by ferroelectric domain switching
Nanoscale 12, 5652 (2020)
M. Ghidini et al.
XPEEM and MFM imaging of ferroic materials
Adv. Electron. Mater. 8, 2200162 (2022)