J
Jason Cleveland
Researcher at University of California, Santa Barbara
Publications - 57
Citations - 10223
Jason Cleveland is an academic researcher from University of California, Santa Barbara. The author has contributed to research in topics: Cantilever & Non-contact atomic force microscopy. The author has an hindex of 34, co-authored 57 publications receiving 9935 citations. Previous affiliations of Jason Cleveland include University of California & Oxford Instruments.
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Journal ArticleDOI
A nondestructive method for determining the spring constant of cantilevers for scanning force microscopy
TL;DR: The spring constant of microfabricated cantilevers used in scanning force microscopy (SFM) can be determined by measuring their resonant frequencies before and after adding small end masses as mentioned in this paper.
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Tapping mode atomic force microscopy in liquids
Paul K. Hansma,Jason Cleveland,Manfred Radmacher,D. A. Walters,P. E. Hillner,Magdalena Bezanilla,Monika Fritz,D. Vie,Helen G. Hansma,Craig Prater,J. Massie,L. Fukunaga,J. Gurley,V. Elings +13 more
TL;DR: Tapping mode atomic force microscopy in liquids gives a substantial improvement in imaging quality and stability over standard contact mode as discussed by the authors, where probe sample separation is modulated as the probe scans over the sample.
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Energy dissipation in tapping-mode atomic force microscopy
TL;DR: In this paper, a method was presented to measure the energy dissipated by the tip-sample interaction in tapping-mode atomic force microscopy (AFM) using a 4 N/m cantilever with an initial amplitude of 25 nm tapping on a hard substrate at 74 kHz.
Journal ArticleDOI
Measuring the viscoelastic properties of human platelets with the atomic force microscope
TL;DR: The elastic modulus of the platelet was determined with a lateral resolution of approximately 100 nm by measuring force curves as a function of the lateral position on top of human platelets with the atomic force microscope.
Journal ArticleDOI
Direct Visualization of Surfactant Hemimicelles by Force Microscopy of the Electrical Double-Layer
S. Manne,S. Manne,Jason Cleveland,Jason Cleveland,Hermann E. Gaub,Hermann E. Gaub,Galen D. Stucky,Galen D. Stucky,Paul K. Hansma,Paul K. Hansma +9 more
TL;DR: The morphology of ionic surfactant molecules adsorbed from aqueous solution onto hydrophobic substrates has been determined by atomic force microscopy as mentioned in this paper, which represents the first direct imaging of "hemimicelles", liquid-crystalline aggregates of amphiphilic molecules which form at interfaces.