[Tirmzi2020jan] Tirmzi, A. M.“Photoconductivity Dynamics in Lead Halide Perovskites Probed by Scanning Probe Microscopy”, Cornell University, 2020 (172 pages, 46.5 MB).

[Nguyen2018may] Nguyen, H. L.“Image Reconstruction Development and Signal-to-Noise Analysis for Nanometer-Scale Magnetic Resonance Imaging”, Cornell University, 2018 (308 pages, 44 MB).

[Isaac2018feb] Isaac, C. E.“Harnessing Electron Spin Labels for Single Molecule Magnetic Resonance Imaging”, Cornell University, 2018 (331 pages, 144 MB).

[Dwyer2017aug] Dwyer, R. P.“Probing Charge Motion in Next Generation Semiconductors with Scanned Probe Microscopy”, Cornell University, 2017 (247 pages, 10.3 MB).

[Smieska2015aug] Smieska, L. M.“Microscopic Studies of the Fate of Charges in Organic Semiconductors: Scanning Kelvin Probe Measurements of Charge Trapping, Transport, and Electric Fields in p- and n-type Devices”, Cornell University, 2015 [Cornell eCommons][Proquest thesis no. 3730470][pdf] (230 pages, 36.4 MB).

[Longenecker2013jan] Longenecker, J. G.“High-Gradient Nanomagnet-on-Cantilever Fabrication for Scanned Probe Detection of Magnetic Resonance”, Cornell University, 2013 [Cornell eCommons][Proquest thesis no. 3536799][pdf chapters 1 and 2][pdf chapter 3][pdf chapter 4][pdf chapter 5][pdf chapter 6] (228 pages, 136.7 MB total).

[Hoepker2013jan] Hoepker, N. C.“Fluctuations Near Thin Films of Polymers, Organic Photovoltaics, and Organic Semiconductors Probed by Electric Force Microscopy”, Cornell University, 2013 [Cornell eCommons][pdf] (219 pages, 10.3 MB).

[Moore2011sep] Moore, E. W.“1. Mechanical Detection of Electron Spin Resonance from Nitroxide Spin Probes, 2. Ultrasensitive Cantilever Torque Magnetometry of Magnetization Switching in Individual Nickel Nanorods”, Cornell University, 2011 [Cornell eCommons][pdf] (155 pages, 7.2 MB).

[Luria2011aug] Luria, J. L.“Spectroscopic Characterization of Charge Generation and Trapping in Third-Generation Solar Cell Materials Using Wavelength- and Time-Resolved Electric Force Microscopy”, Cornell University, 2011 [Cornell eCommons][pdf] (196 pages, 30.0 MB).

[Hickman2010feb] Hickman, S. A.“Batch fabrication of cantilevered magnetic nanorods on attonewton-sensitivity silicon oscillators for magnetic resonance force microscopy”, Cornell University, 2010 [Cornell eCommons][pdf] (156 pages, 38.5 MB).

[Yazdanian2009aug] Yazdanian, S. M.“Scanned Probe Microscopy Studies of Thin Organic Films Using Cantilever Frequency Noise”, Cornell University, 2009 [Cornell eCommons][pdf] (155 pages, 8.5 MB).

[Jaquith2009jan] Jaquith, M. J.“The Kinetics of Charge Trapping in Polycrystalline Pentacene and Ion Migration in Light Emitting Electrochemical Cells Studied by Time- and Temperature-Resolved Electric Force Microscopy”, Cornell University, 2009 [Cornell eCommons][pdf] (156 pages, 10.5 MB).

[Kuehn2007aug] Kuehn, S. “Force-Gradient Detected Magnetic Resonance and the Origins of Noncontact Friction”, Cornell University, 2007 [pdf] (179 pages, 5.2 MB).

[Jenkins2007jan] Jenkins, N. E.“Expanding the Limits of Magnetic Resonance Force Microscopy”, Cornell University, 2007 [pdf] (241 pages, 4.4 MB).

[Ng2006may] Ng, T. N.“Developments in Force Detection: Integrated Cantilever Magnetometry and Electric Force Microscopy of Organic Semiconductors”, Cornell University, 2006 [pdf] (130 pages, 7.8 MB).

[Muller2005aug] Muller, E. M.“Electric Force Microscopy of Charge Trapping in Thin-Film Pentacene”, Cornell University, 2005 [pdf] (141 pages, 2.9 MB).

[Garner2005aug] Garner, S. R.“Force-Gradient Detection of Nuclear Magnetic Resonance”, Cornell University, 2005 [pdf] (150 pages, 2.9 MB).

[Silveira2005aug] Silveira, W. R.“Microscopic View of Charge Injection in a Model Organic Semiconductor”, Cornell University, 2005 [pdf] (305 pages, 7.4 MB).