@article{33598, keywords = {Energy, Spectroscopy, Kinetics, Electrochemical analysis, Materials testing, Article, Priority journal, Calculation, Phase transition, Thermodynamics, Iron derivative, Protein domain}, author = {S.V Kalinin and B.J Rodriguez and S Jesse and Y.H Chu and T Zhao and Ramamoorthy Ramesh and S Choudhury and L.Q Chen and E.A Eliseev and A.N Morozovska}, title = {Intrinsic single-domain switching in ferroelectric materials on a nearly ideal surface}, abstract = {Ferroelectric domain nucleation and growth in multiferroic BiFeO3 is studied on a single-domain level by using piezoresponse force spectroscopy. Variation of local electromechanical response with dc tip bias is used to determine the size of the domain formed below the conductive scanning probe tip. The domain parameters are calculated self-consistently from the decoupled Green function theory by using tip geometry determined from the domain wall profile. The critical parameters of the nucleating domain and the activation energy for nucleation are determined. The switching mechanism is modeled by using the phase-field method, and comparison with experimental results shows that the nucleation biases are within a factor of ≈2 of the intrinsic thermodynamic limit. The role of atomic-scale defects and long-range elastic fields on nucleation bias lowering is discussed. These measurements open a pathway for quantitative studies of the role of a single defect on kinetics and thermodynamics of first order bias-induced phase transitions and electrochemical reactions. © 2007 by The National Academy of Sciences of the USA.}, year = {2007}, journal = {Proceedings of the National Academy of Sciences of the United States of America}, volume = {104}, number = {51}, pages = {20204-20209}, issn = {00278424}, doi = {10.1073/pnas.0709316104}, note = {cited By 67}, language = {eng}, }