Ferroelectric Materials Publications

  1. Ferroelectric Organic Materials Catch Up With Oxides
    D. A. Bonnell Science   339 (2013) 401.
  2. Direct Determination of the Effect of Strain on Domain Morphology in Ferroelectric Superlattices with Scanning Probe Microscopy
    K. Galipeau, Y. Li, P. Wu, L.Q. Chen, A. Soukiassian, Y. Zhu, D. A. Muller, D. Schlom, D. Bonnell  J. Appl. Physics  112 (2012)  052011.
  3. Controlling Polarization Dependent Reactions to Fabricate Multi-Component Functional Nanostructures
    D. Conklin, T-H Park, S. Nanayakkara, M. Therien, and D.A. Bonnell  Adv Func Mat 21 (2011) 4712-4718
  4. Quantification of Internal Electric Fields and Local Polarization in Ferroelectric Superlattices
    Kendra Kathan-Galipeau, Pingping Wu, Yulan Li, , Long-Qing Chen, Arsen Soukiassian Xiaoxing Xi. , Darrell G. Schlom, and Dawn A. Bonnell, ACS Nano  5 (2011)  640-646
  5. Ferroelectric Polarization Dependent Interactions at Pd-LiNbO3(0001) Interfaces
    M. S. H. Zhao, D. A. Bonnell, J. M. Vohs,  Journal of Vacuum Science & Technology A 27 (2009) 1337-1342
  6. Defect-mediated Adsorption of Methanol and Carbon Dioxide on BaTiO3(001)
    J. Garra, J. M. Vohs, D. A. Bonnell Journal of Vacuum Science & Technology A  27 (2009) L13-L1
  7. Influence of Ferroelectric Polarization on the Energetics of the Reaction of 2-Fluoroethanol on BaTiO3
    M. H. Zhao, D. A. Bonnell, J. M. Vohs Surface Science  603 ( 2009) 284-290
  8. The Effect of Ferroelectric Polarization on the Interaction of Water and Methanol with the Surface of LiNbO3(0001)
    J. Garra, J. M. Vohs, D. A. Bonnell  Surface Science  603 (2009) 1106-1114
  9. Piezoresponse Force Microscopy: A Window into Electromechanical Behavior at the Nanoscale
    D. A. Bonnell, S. V. Kalinin, , A. Kholkin, A.  Gruverman, Materials Research Society Bulletin 34. (2009) 648-657
  10. Effect of Ferroelectric Polarization on the Adsorption and Reaction of Ethanol on BaTiO3
    M. H. Zhao, D. A. Bonnell, J. M. Vohs Surface Science 602 (2008) 2849-2855
  11. Controlled Patterning of Ferroelectric Domains: Fundamental Concepts and Applications
    D. B. Li, D. A. Bonnell Annual Review of Materials Research 38 (2008) 351-368
  12. Direct In Situ Determination of the Polarization Dependence of Physisorption on Ferroelectric Surfaces
    D. B. Li, M. H. Zhao, J. Garra, et al. Nature Materials 7 (2008) 473-477
  13. Ferroelectric Lithography
    D. B. Li, D. A. Bonnell Ceramics International 34 (2008) 157-164
  14. Polarization and Local Reactivity on Organic Ferroelectric Surfaces: Ferroelectric Nanolithography using Poly (vinylidene fluoride)
    C. Rankin, C. Chou, D. Conklin, D. Bonnell ACS Nano 1 (2007) 234-238.
  15. Contrast mechanism maps for piezoresponse force microscopy. 
    Sergei V. Kalinin, Dawn A. Bonnell, J. Mat. Res., in print (May 2002)
  16. Imaging mechanism of piezoresponse force microscopy of ferroelectric surfaces. 
    Sergei V. Kalinin, Dawn A. Bonnell, Phys. Rev. B (2002), 65(12), 125408
  17. Domain polarity and temperature induced potential inversion on BaTiO3 (100) surface. 
    Sergei V. Kalinin, C.Y. Johnson, Dawn A. Bonnell, J. Applied Physics 91 (2002) 3816.
  18. Local potential and polarization screening on ferroelectric surfaces.
    Sergei V. Kalinin, Dawn A. Bonnell, Phys. Rev. B (2001),  63(12),  125411/1-125411/13.
  19. Temperature dependence of polarization and charge dynamics on the BaTiO3 (100) surface by scanning probe microscopy.
    Sergei V. Kalinin, Dawn A. Bonnell,  Appl. Phys. Lett.  (2001),  78(8),  1116-1118.
  20. Analysis of phase distributions in the Li2O-Nb2O5-TiO2 system by piezoresponse imaging.
    Borisevich, Albina Y.; Kalinin, Sergei V.; Bonnell, Dawn A.; Davies, Peter K. J. Mater. Res.  (2001),  16(2),  329-332.
  21. Effect of Phase Transition on the Surface Potential Of The BaTiO3 (100) Surface By Variable Temperature Scanning Surface Potential Microscopy.
    Sergei V. Kalinin, D. A. Bonnell Journal of Applied Physics 87 (2000) 3950-56.
  22. Characterization of ferroelectric BaTiO3 (100) surfaces by variable temperature scanning surface potential microscopy and piezoresponse imaging.
    Kalinin, Sergei V.; Bonnell, Dawn A..  Mater. Res. Soc. Symp. Proc.  (2000),  596(Ferroelectric Thin Films VIII),  327-332.
  23. Dynamic Behavior Of Domain-Related Topography And Surface Potential On The BaTiO3 (100) Surface By Variable Temperature Scanning Surface Potential Microscopy.
    Sergei V. Kalinin, Dawn A. Bonnell, Z. Metallkd.  (1999),  90(12),  983-989.