In situ AFM, SPM, and MFM at Electrically Active Interfaces Publications

  1. Nano Impedance and Complex Properties in Energy Related Systems
    W. Lee, F. B. Prinz, X. Chen, S. Nonnenmann, D. A. Bonnell, R. P. O’Hayre   MRS Bulletin 37 (2012) 659-667.
  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. Probing Local Phenomena: from electrons to photons
    D.A. Bonnell, D.N. Basov, M. Bode, U. Diebold, S. V. Kalinin, V. Madhavan, L. Novotny, M. Salmeron, U. D. Schwarz, P. S. Weiss Review for Modern Physics 84 (2012) 1343-1381. 
  4. Direct Probe of Molecular Polarization in de novo Protein-Electrode Interfaces
    Kendra Kathan-Galipeau, Sanjini Nanayakkara, Paul A. O’Brien, Maxim Nikiforov, Bohdana M. Discher, Dawn A. Bonnell ACS Nano 5 4835-4842 DOI: 10.1021/nn200887n Jun 2011
  5. Determining the Electronic Properties of Individual Nanointerfaces by Combining Intermittent AFM Imaging and Contact Spectroscopy
    R. A. Kraya, D. A. Bonnell IEEE Transactions on Nanotechnology 9 (2010) 741-744.
  6. Orientation Controlled Schottky Barrier Formation at Au Nanoparticle-SrTiO3 Interfaces
    R. Kraya, L. Y. Kraya , D. A. Bonnell Nano Letters 10 (2010) 1224-1228.
  7. Probing Polarization and Dielectric Function of Molecules with High Order Harmonics in s-NSOM
    M. Nikiforov, S. Schneider, T-H Park, P. Milde, U. Zerweck, C. Loppacher, L. Eng, M. J. Therien, N. Engheta, D. Bonnell  J. of Applied  Physics 106 (2009) 114307
  8. 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
  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. Probing Physical Properties at the Nanoscale
    M. J. Brukman, D. A. Bonnell Physics Today 61 (2008) 36-42
  11. 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
  12. Scanning Probe Microscopy of Oxide Surfaces: Atomic Structure and Properties
    D. A. Bonnell, J. Garra Reports on Progress in Physics 71 (2008) 044501
  13. The Effect of Molecular Orientation on the Potential of Porphyrin−Metal Contacts
    M. P. Nikiforov, U. Zerweck, P. Milde, C. Loppacher, T-H Park, H. T. Uyeda, M. J. Therien, L. Eng, D. Bonnell Nano Lett. 8 (2008) 110–113
  14. Local Electronic Transport at Grain Boundaries in Nb-doped SrTiO3
    S. Kalinin. D. Bonnell Phys. Rev. B  70  (2004) 235304
  15. Low Temperature Study of Nonlinear Transport Across Oxide Grain Boundaries
    R. Shao, J. Vavro, D. Bonnell  Appl. Phys. Lett85 (2004) 561-3
  16. Role of Defects in Electronic Transport Through Semiconducting Single-wall Carbon Nanotubes.
    M. Freitag, S. Kalinin, D. Bonnell, A.T. Johnson Phys Rev Letters 89 (2002) 216801.
  17. Scan Impedance Microscopy of an Active Schottky Barrier Diode.
    S. Kalinin, D.A. Bonnell J. Applied Physics 91 (2002) 832-39.
  18. Micromagnetic and magnetoresistance studies of ferromagnetic La0.83Sr0.13MnO2.98. 
    G. Popov, S.V. Kalinin, T. Alvarez, T.J. Emge, M. Greenblatt, and D.A. Bonnell, Phys. Rev. B 65 (2002) 064426.
  19. Scanning impedance microscopy of electroactive interfaces.
    Sergei V. Kalinin, Dawn A. Bonnell, Appl. Phys. Lett.  (2001),  78(9),  1306-1308.
  20. In Situ Measurements of Electric Fields at Individual Grain Boundaries.
    D. A. Bonnell, B. Huey, D. Carroll SolidState Ionics 74 (1994) 35-42.
  21. Observation of Electric Field Gradients Near Field-Emission Cathode Arrays.
    Y. Liang, D. A. Bonnell, W. Goodhue, D. Rathman, C. Bozler Appl. Phys. Lett. 66 (1995) 1147.
  22. Imaging Current Flow in Polycrystalline Superconductors with Magnetic Force Microscopy.
    F. Král, D. Perednis, B. Huey, D. A. Bonnell, G. Kostorz, L. Gauckler, Adv. Mat. 17 (1998) 1442-44.
  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.
  24. Local Structure and Properties of Oxide Surface: Scanning Probe Analyses
    D. A. Bonnell J. Am. Ceramic Soc. 81 (1998) 3049-70.
  25. Nanoscale Variations in Potential at Ceramics Surfaces and Interfaces
    B. Huey, D. Lisjak, D. A. Bonnell J. Am. Cer. Soc 82 (1999) 1941-44.
  26. Nanometer Scale Variations of Potential at Bicrystal and Polycrystalline Oxide Interfaces.
    B. Huey, D. A. Bonnell, SolidState Ionics 80 131,  51-60 (2000).
  27. Spatially Localized Dynamic Properties Of Individual Interfaces In Semiconducting Oxides.
    B. Huey, D. A. Bonnell, Applied Physics Letters 76 (2000) 1012-14.