Found 388 results[ Author] Title Type Year
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Isochromat spectroscopy of photons emitted from metal surfaces in an STM. Annalen Der Physik 505, 133–140 (1993).
Photon emission from small particles in an STM. Zeitschrift für Physik D Atoms, Molecules and Clusters 26, 87–88 (1993).
Photon emission scanning tunneling microscope. Journal of Vacuum Science & Technology B 9, 573–577 (1991).
Enhanced photon emission from the STM: a general property of metal surfaces. Ultramicroscopy 42, 355–359 (1992).
Electromagnetic interactions of metallic objects in nanometer proximity. Physical review letters 71, 3493 (1993).
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).
Photon emission from nanostructures in an STM. Nanostructured Materials 3, 345–348 (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).
Sensor Technology in the Netherlands: State of the Art 33–42 (Springer Netherlands, 1998).
Micromechanical thermogravimetry. Chemical Physics Letters 294, 363–369 (1998).
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).
Thermal analysis using a micromechanical calorimeter. Applied Physics Letters 69, 40–42 (1996).
Micromechanics: A toolbox for femtoscale science:“Towards a laboratory on a tip”. Microelectronic engineering 35, 373–379 (1997).
Nanojoule Thermal Transfer in Micromechanical Heterostructures. Applied Physics Letters 69, (1996).
Surface stress in the self-assembly of alkanethiols on gold. Science 276, 2021–2024 (1997).
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).
E. MEYER, M. GUGGISBERG, CH. LOPPACHER. Impact of Electron and Scanning Probe Microscopy on Materials Research 339 (1999).
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).
Charras, GT, see Lehenkari, PP 82 (2000) 289. Ultramicroscopy 82, 310 (2000).
CANTILEVER SENSORS AND TRANSDUCERS. (2004)..
Cantilever sensors and transducers. (2009).
CANTILEVER SENSORS AND TRANSDUCERS. (2001).
A cantilever array-based artificial nose. Ultramicroscopy 82, 1–9 (2000).
Resorcin  arene Cavitand-Based Molecular Switches. Advanced Functional Materials 16, 147–156 (2006).
Morphological transitions from dendrites to nanowires in the electroless deposition of silver. Crystal Growth & Design 13, 465–469 (2013).
Neuromorphic atomic switch networks. PloS one 7, e42772 (2012).
Engineering nature: art & consciousness in the post-biological era. (Intellect Ltd, 2006).
Rigid microenvironments promote cardiac differentiation of mouse and human embryonic stem cells. Science and technology of advanced materials 14, 025003 (2013).
Electron spectroscopic investigations of the influence of initial-and final-state effects on electronegativity. Journal of the American Chemical Society 102, 4873–4879 (1980).
Aligned carbon nanotube, graphene and graphite oxide thin films via substrate-directed rapid interfacial deposition. Nanoscale 4, 3075–3082 (2012)..
IOURNAL OF CATALYSIS 47, 404 (1977). (1977).
A femtojoule calorimeter using micromechanical sensors. Review of Scientific Instruments 65, 3793–3798 (1994).
Erratum: A femtojoule calorimeter using micromechanical sensors [Rev. Sci. Instrum. 65, 3793 (1994)]. Review of Scientific Instruments 66, 3083–3083 (1995).