Answers to Question Set 4. (Submitted).
THE EFFECT OF A HYDROGEN PLASMA ON THE HYDRIDING OF TITANIUM: KINETICS AND EQUILIBRIUM CONCENTRATION. (Submitted).
Observation of the temporal evolution of the (1 times 2) reconstructed Au (110) surface using scanning tunneling microscopy. Journal of Vacuum Science and Technology. B, Microelectronics Processing and Phenomena;(United States) 9, (Submitted).
Tunneling Processes within a C60 Molecule. Probe Microscopy 1, 269–276 (Submitted).
Identifying individual DNA species in a complex mixture by precisely measuring the spacing between nicking restriction enzymes with atomic force microscope. Journal of The Royal Society Interface 9, 2341–2350 (2012).
Characterization of the first in-plane mode of AlN-actuated microcantilevers. SPIE Microtechnologies 80661G–80661G (International Society for Optics and Photonics, 2011).
Cooperative binding of drebrin to actin filaments. MOLECULAR BIOLOGY OF THE CELL 22, (AMER SOC CELL BIOLOGY 8120 WOODMONT AVE, STE 750, BETHESDA, MD 20814-2755 USA, 2011).
Influence of substrates on hepatocytes: a nanomechanical study. Journal of Scanning Probe Microscopy 4, 7–16 (2009).
Interferometric profiling of microcantilevers in liquid. Optics and Lasers in Engineering 47, 217–222 (2009).
A flexible, highly stable electrochemical scanning probe microscope for nanoscale studies at the solid-liquid interface. Review of Scientific Instruments 79, 103701 (2008).
Performance advances in interferometric optical profilers for imaging and testing. Journal of Optics A: Pure and Applied Optics 10, 064001 (2008).
Vertical inertial sliding drive for coarse and fine approaches in scanning probe microscopy. Review of scientific instruments 78, 036110 (2007).
Observation of nanoscale dynamics in cantilever sensor arrays. Nanotechnology 17, 3873 (2006).
CELL AND DEVELOPMENTAL BIOLOGY-Analysis of type IV pilus and its associated motility in Myxococcus xanthus using an antibody reactive with native pilin and pili. Microbiology-Reading 151, 353–360 (2005).
Observation of nuclear fusion driven by a pyroelectric crystal. Nature 434, 1115–1117 (2005).
Cell Biology: Local Nanomechanical Motion of the Cell Wall of Saccharomyces cerevisiae. SCIENCE-NEW YORK THEN WASHINGTON- 1147–1149 (2004).
Direct determination of the energy required to operate a single molecule switch. Physical review letters 90, 066107 (2003).
A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout. Sensors and Actuators B: Chemical 77, 122–131 (2001).
Forces with submolecular resolution between the probing tip and Cu-TBPP molecules on Cu (100) observed with a combined AFM/STM. Applied Physics A 72, S105–S108 (2001).
Single crystals of single-walled carbon nanotubes formed by self-assembly. Science 292, 1136–1139 (2001).
A cantilever array-based artificial nose. Ultramicroscopy 82, 1–9 (2000).
Charras, GT, see Lehenkari, PP 82 (2000) 289. Ultramicroscopy 82, 310 (2000).
Comment on“Physical Picture for Light Emission in Scanning Tunneling Microscopy”. Physical review letters 84, 2034–2034 (2000)..
Electronics using hybrid-molecular and mono-molecular devices. Nature 408, 541–548 (2000).
Stress at the solid-liquid interface of self-assembled monolayers on gold investigated with a nanomechanical sensor. Langmuir 16, 9694–9696 (2000).
Translating biomolecular recognition into nanomechanics. Science 288, 316–318 (2000).
An artificial nose based on a micromechanical cantilever array. Analytica Chimica Acta 393, 59–65 (1999).
Spatially resolved tunneling along a molecular wire. Physical review letters 83, 2809 (1999).
Scanning Probe Microscopy 11–48 (Springer Berlin Heidelberg, 1998).
Combination of single crystal zeolites and microfabrication: Two applications towards zeolite nanodevices. Microporous and mesoporous materials 21, 403–409 (1998).
Manipulation of C 60 molecules on Cu (111) surfaces using a scanning tunneling microscope. Applied Physics A: Materials Science & Processing 66, S669–S673 (1998).
Micromechanical Thermal Gravimetry Performed on one Single Zeolite Crystal. Helvetica Physica Acta 71, 3–4 (1998).
Micromechanical thermogravimetry. Chemical Physics Letters 294, 363–369 (1998).
Micro Total Analysis Systems’ 9 117–120 (Springer Netherlands, 1998).
Physical principles of the single-C 60 transistor effect. Physical Review B 58, 16407 (1998).
Sequential position readout from arrays of micromechanical cantilever sensors. Applied Physics Letters 72, 383–385 (1998).
Size-dependent light emission from mass-selected clusters. The European Physical Journal D-Atomic, Molecular, Optical and Plasma Physics 2, 79–82 (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).
Surface stress in the self-assembly of alkanethiols on gold probed. by a force microscopy technique. Applied Physics A: Materials Science & Processing 66, S55–S59 (1998).
Is There A Minimum Size and a Maximum Speed for a Nanoscale Amplifier?. Annals of the New York Academy of Sciences 852, 243–256 (1998).
Sensor Technology in the Netherlands: State of the Art 33–42 (Springer Netherlands, 1998).
Contacting molecular nanostructures. Molecular mechanics, charge Transfer, and transport properties. NATO ASI Series E Applied Sciences-Advanced Study Institute 341, (1997).
An electromechanical amplifier using a single molecule. Chemical Physics Letters 265, 353–357 (1997).
Fundamental considerations in the manipulation of a single C< sub> 60 molecule on a surface with an STM. Surface science 386, 115–123 (1997).
Integration of silicon micromechanical arrays with molecular monolayers for miniaturized sensor systems. Sensors and Their Applications VIII, Proceedings of the eighth conference on Sensors and their Applications, held in Glasgow, UK, 7-10 September 1997 7, 71 (1997).
Materials index. Surface Science 386, 351–354 (1997).
Micro/Nanotribology and Its Applications 299–309 (Springer Netherlands, 1997).