Found 168 resultsAuthor [ Title] Type Year
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Photon emission at molecular resolution induced by a scanning tunneling microscope. Science 262, 1425–1427 (1993).
Photon emission experiments with the scanning tunnelling microscope. Journal of Microscopy 152, 325–336 (1988).
Photon emission from adsorbed C60 molecules with sub-nanometer lateral resolution. Applied Physics A 57, 513–516 (1993).
Photon Emission from C60 in a Nanoscopic Cavity. Proceedings of the NATO Advanced Research Workshop: (Humboldt-Universität zu Berlin, 1994).
Photon emission from nanostructures in an STM. Nanostructured Materials 3, 345–348 (1993).
Photon emission from small particles in an STM. Zeitschrift für Physik D Atoms, Molecules and Clusters 26, 87–88 (1993).
Photons and Local Probes 189–208 (Springer Netherlands, 1995).
Photon emission processes in STM. AIP Conf Proceedings 241, 328–336 (1992).
Photon emission scanning tunneling microscope. Journal of Vacuum Science & Technology B 9, 573–577 (1991).
Photon emission with the scanning tunneling microscope. Zeitschrift für Physik B Condensed Matter 72, 497–501 (1988).
Photon spectroscopy, mapping, and topography of 85% porous silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
Photon Spectroscopy, Mapping, and Topography of 85-Percent Porous Silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
Photon-emission scanning tunneling microscopy of silver films in ultrahigh vacuum: A spectroscopic method. Physical Review B 48, 15250 (1993).
Physical principles of the single-C 60 transistor effect. Physical Review B 58, 16407 (1998).
Plasma surface interactions in the TCA tokamak: a preliminary study using deposition probes. (1982).
Postannealing of coldly condensed Ag films: Influence of pyridine preadsorption. Physical Review B 32, 4252 (1985).
Probe Microscopy: Editorial. Probe Microscopy 1, 1–1 (1997).
Properties of microcrystalline silicon. IV. Electrical conductivity, electron spin resonance and the effect of gas adsorption. Journal of Physics C: Solid State Physics 16, 6241 (1983).
Proposal for the simulation of electrochemical charge transfer in the scanning tunneling microscope. Journal of electroanalytical chemistry and interfacial electrochemistry 251, 241–245 (1988).
The Reaction of Gaseous Molecules with Metal Surfaces Studied by X-Ray Photoelectron Spectroscopy. (1977).
The reaction of oxygen and water with iron films studied by X-Ray photoelectron spectroscopy. Surface Science 62, 386–396 (1977).
The reactions of oxygen and water with the rare-earth metals terbium to lutetium studied by x-ray photoelectron spectroscopy. Surface Science 61, 468–482 (1976).
Repositioning of C\_60 molecules on surfaces at room temperature. APS March Meeting Abstracts 1, 2505 (1997).
Room temperature molecular recognition and manipulation on an individual basis. EUROPEAN JOURNAL OF CELL BIOLOGY 74, 9–9 (WISSENSCHAFTLICHE VERLAG MBH BIRKENWALDSTRASSE 44, POSTFACH 10 10 61, 70009 STUTTGART, GERMANY, 1997).
Room temperature supramolecular repositioning at molecular interfaces using a scanning tunneling microscope. Surface science 371, L231–L234 (1997).
Optical Properties of Low Dimensional Silicon Structures 157–162 (Springer Netherlands, 1993).
Scanning tunneling and local probe studies of fullerenes. NATO ASI Series E Applied Sciences-Advanced Study Institute 316, 117–138 (1996).
A SCANNING TUNNELING MICROSCOPIC (STM) STUDY OF THE SURFACE TOPOGRAPHY OF PLASMA-DEPOSITED NANOCRYSTALLINE SILICON. (1985).
Scanning tunneling microscopy. Le Journal de Physique IV 3, C7–41 (1993).
A scanning tunneling microscopy investigation of 4, 4′-dimethylbianthrone molecules adsorbed on Cu (111). Surface science 383, 37–49 (1997).
Scanning tunneling microscopy of individual molecules: beyond imaging. Surface science 386, 101–114 (1997).
Scanning tunneling microscopy of individual molecules of copper phthalocyanine adsorbed on polycrystalline silver surfaces. Surface Science 181, 267–277 (1987).
Scanning tunneling microscopy of nanocrystalline silicon surfaces. Surface Science 168, 795–800 (1986).
Scanning tunneling microscopy of ordered C60 and C70 layers on Au (111), Cu (111), Ag (110), and Au (110) surfaces. Journal of Vacuum Science & Technology B 12, 1942–1946 (1994).
Scanning tunneling microscopy of surface microstructure on rough surfaces. SPIE MILESTONE SERIES MS 107, 249–249 (1995).
Scanning tunneling microscopy of surface microstructure on rough surfaces. IBM journal of research and development 30, 472–477 (1986).
Scanning Tunneling Microscopy and Related Methods 269–280 (Springer Netherlands, 1990).
Scanning-tunneling-microscope study of antiphase domain boundaries, dislocations, and local mass transport on Au (110) surfaces. Physical Review B 45, 6844 (1992).
Scrape-off measurements during Alfvén wave heating in the TCA tokamak. Journal of Nuclear Materials 121, 22–28 (1984).
Sequential position readout from arrays of micromechanical cantilever sensors. Applied Physics Letters 72, 383–385 (1998).
Silver films condensed at 300 and 90 K: scanning tunneling microscopy of their surface topography. Physical review letters 55, 951 (1985).
Single crystals of single-walled carbon nanotubes formed by self-assembly. Science 292, 1136–1139 (2001).
Size-dependent light emission from mass-selected clusters. The European Physical Journal D-Atomic, Molecular, Optical and Plasma Physics 2, 79–82 (1998).
Solvent dynamical effects in scanning tunneling microscopy with a polar liquid in the gap. Journal of electroanalytical chemistry and interfacial electrochemistry 308, 333–337 (1991).
Spatially resolved tunneling along a molecular wire. Physical review letters 83, 2809 (1999).
Stable and metastable reconstructions at the C sub 60/Au (110) interface. Surf. Sci.(The Netherlands) 331, 1129–1135 (1994).
Stable and metastable reconstructions at the C< sub> 60/Au (110) interface. Surface science 331, 1129–1135 (1995).
Stress at the solid-liquid interface of self-assembled monolayers on gold investigated with a nanomechanical sensor. Langmuir 16, 9694–9696 (2000).
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).