Publications
Stress at the solid-liquid interface of self-assembled monolayers on gold investigated with a nanomechanical sensor. Langmuir 16, 9694–9696 (2000).
AN ELECTRONIC NOSE BASED ON A MICROMECHANICAL CANTILEVER ARRAY. Micro Total Analysis Systems' 98: Proceedings of the Utas' 98 Workshop, Held in Banff, Canada, 13-16 October 1998 57 (1998).
CSIS-181 Section 1346. (Submitted).
Excitation of Fe 1s core-level photoelectrons with synchrotron radiation. Journal of Physics F: Metal Physics 7, L345 (1977).
Micro Total Analysis Systems’ 9 117–120 (Springer Netherlands, 1998).
Experimental observation of forces acting during scanning tunneling microscopy. Physical review letters 57, 2403 (1986).
Force Sensing in Scanning Tunneling Microscopy. IBM, Rüschlikon 1 (1986).
. Optical Properties of Low Dimensional Silicon Structures 157–162 (Springer Netherlands, 1993).
Direct observation of individual nanometer-sized light-emitting structures on porous silicon surfaces. EPL (Europhysics Letters) 23, 197 (1993).
Photon spectroscopy, mapping, and topography of 85% porous silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
Nanostructuring of porous silicon using scanning tunneling microscopy. Journal of Vacuum Science & Technology B 12, 2067–2069 (1994).
Photon Spectroscopy, Mapping, and Topography of 85-Percent Porous Silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
Epitaxial growth of C 60 on Ag (110) studied by scanning tunneling microscopy and tunneling spectroscopy. Physical Review B 50, 5810 (1994).
A scanning tunneling microscopy investigation of 4, 4′-dimethylbianthrone molecules adsorbed on Cu (111). Surface science 383, 37–49 (1997).
Repositioning of C\_60 molecules on surfaces at room temperature. APS March Meeting Abstracts 1, 2505 (1997).
Manipulation of C 60 molecules on Cu (111) surfaces using a scanning tunneling microscope. Applied Physics A: Materials Science & Processing 66, S669–S673 (1998).
Supramolecular assembly of individual C 60 molecules on a monolayer of 4, 4′-dimethylbianthrone molecules. Applied Physics A: Materials Science & Processing 66, S745–S748 (1998).
Room temperature supramolecular repositioning at molecular interfaces using a scanning tunneling microscope. Surface science 371, L231–L234 (1997).
Room-temperature repositioning of individual C60 molecules at Cu steps: Operation of a molecular counting device. Applied Physics Letters 69, 3016–3018 (1996).
Atomic force microscopy study of the structure–function relationships of the biofilm-forming bacterium Streptococcus mutans. Nanotechnology 17, S1 (2006).
Nanomechanical properties of glucans and associated cell-surface adhesion of Streptococcus mutans probed by atomic force microscopy under in situ conditions. Microbiology 153, 3124–3132 (2007).
Green tea extract selectively targets nanomechanics of live metastatic cancer cells. Nanotechnology 22, 215101 (2011).
Evaluation of bacteria-induced enamel demineralization using optical profilometry. dental materials 25, 1517–1526 (2009).
Photon emission experiments with the scanning tunnelling microscope. Journal of Microscopy 152, 325–336 (1988).
Instantaneous Mass Profiling of Live Cells via Live Cell Interferometry. Biophysical Journal 102, 563a (2012).
Comment on" Single Crystals of Single-Walled Carbon Nanotubes Formed by Self-Assembly". Science 300, 1236–1236 (2003).
Effect of surface contamination and pretreatment on the hydrogen diffusion into and out of titanium under plasma conditions. Journal of Nuclear Materials 103, 465–469 (1981).
Extra-atomic relaxation in HCl, ClF, and Cl2 from x-ray photoelectron spectroscopy. The Journal of Chemical Physics 78, 5437–5442 (1983).
Extended-x-ray-absorption fine-structure amplitude attenuation in Br 2: Relationship to satellites in the x-ray photoelectron spectrum. Physical Review A 20, 2405 (1979).
Photon emission in scanning tunneling microscopy: Interpretation of photon maps of metallic systems. Physical Review B 48, 4746 (1993).
Aspects of photon emission from metallic surfaces in the scanning tunneling microscope. physica status solidi (a) 131, 31–33 (1992).
Photon emission from transition metal surfaces in scanning tunneling microscopy. International Journal of Modern Physics B 7, 516–519 (1993).
Atomic and Nanometer-Scale Modification of Materials: Fundamentals and Applications 327–335 (Springer Netherlands, 1993).
Tunneling characteristics at atomic resolution on close-packed metal surfaces. Ultramicroscopy 42, 528–532 (1992).
The role of proximity plasmon modes on noble metal surfaces in scanning tunneling microscopy. Surface science 269, 556–559 (1992).
Photon Emission from C60 in a Nanoscopic Cavity. Proceedings of the NATO Advanced Research Workshop: (Humboldt-Universität zu Berlin, 1994).
Photon emission in scanning tunneling microscopy: interpretation of photon maps of metallic systems. SPIE MILESTONE SERIES MS 107, 376–376 (1995).
Scanning Tunneling Microscopy and Related Methods 269–280 (Springer Netherlands, 1990).