References
- Khomskii DI. Multiferroics: different ways to combine magnetism and ferroelectricity. J Magn Magn Mater. 2006;306(1):1–8.
- Spaldin NA, Cheong S-W, Ramesh R. Multiferroics: past, present and future. PhysToday. 2010;63(10):38–43.
- Kimura T, Goto T, Shintani H, Ishizaka K, Arima T, Tokura Y. Magnetic control of ferroelectric polarization. Nature. 2003;425(6962):55–58.
- Cheong S-W, Mostov M. Multiferroics: a magnetic twist for ferroelectricity. Nat Mater. 2007;6(1):13–20.
- Vaz CAF, Staub U. Artificial multiferroic heterostructures. J Mater Chem c. 2013;1:6731–6742.
- Ma J, Hu J, Li Z, Nan CW. Recent progress in multiferroic magnetoelectric composites: from bulk to thin films. Adv Mater. 2011;23:1062–1087.
- Martin LW, Ramesh R. Multiferroic and magnetoelectric heterostructures. Acta Mater. 2012;60:2449–2470.
- Peiteado M, Jardiel T, Rubio F, Caballero AC. Multipod structures of ZnO hydrothermally grown in the presence of Zn3P2. Mater Res Bull. 2010;45(11):1586–1592.
- Chikazumi S. Physics of magnetism. New York: Krieger; 1978.
- Krupicka S, Novak P. Ferromagnetic materials Vol. 3. Amsterdam: North Holland; 1982.
- Blackwell JJ, Morales MP, O'Grady K, González JM, Cebollada F, Alonso-Sañudo M. Interactions and hysteresis behavior of Fe/SiO2 nanocomposites, J Magn Magn Mater. 2002;243:1103–1105.
- Alonso-Sañudo M, Blackwell JJ, O'Grady K, González JM, Cebollada F, Morales MP. Magnetic behavior and percolation in mechanically alloyed Fe- SiO2 granular solids, J Magn Magn Mater. 2000;221:207.