Publications

Found 56 results
Author Title [ Type] Year
Filters: Author is Schlittler, RR  [Clear All Filters]
Book Chapter
Murray, P. W. et al. Ultimate Limits of Fabrication and Measurement 189–196 (Springer Netherlands, 1995).
Scanning Probe Microscopy 11–48 (Springer Berlin Heidelberg, 1998).
Nanosources and Manipulation of Atoms Under High Fields and Temperatures: Applications 219–228 (Springer Netherlands, 1993).
Micro/Nanotribology and Its Applications 299–309 (Springer Netherlands, 1997).
Ultimate Limits of Fabrication and Measurement 89–95 (Springer Netherlands, 1995).
Forces in Scanning Probe Methods 123–131 (Springer Netherlands, 1995).
Gimzewski, J. K. et al. Near Field Optics 333–340 (Springer Netherlands, 1993).
Conference Paper
Element-Specific Contrast in STM via Resonant Tunneling. APS March Meeting Abstracts 1, 1908 (1996).
Repositioning of C\_60 molecules on surfaces at room temperature. APS March Meeting Abstracts 1, 2505 (1997).
Journal Article
Berndt, R. et al. Atomic resolution in photon emission induced by a scanning tunneling microscope. Physical review letters 74, 102 (1995).
Bias-dependent STM images of oxygen-induced structures on Ti (0001) facets. Surface science 310, 85–88 (1994).
Contacting molecular nanostructures. Molecular mechanics, charge Transfer, and transport properties. NATO ASI Series E Applied Sciences-Advanced Study Institute 341, (1997).
Controlled room-temperature positioning of individual molecules: molecular flexure and motion. SCIENCE-NEW YORK THEN WASHINGTON- 181–183 (1996).
Cooperative self-assembly of Au atoms and C 60 on Au (110) surfaces. Physical review letters 72, 1036 (1994).
Design and performance analysis of a three-dimensional sample translation device used in ultrahigh vacuum scanned probe microscopy. Journal of Vacuum Science & Technology B 14, 827–831 (1996).
Epitaxial growth of C 60 on Ag (110) studied by scanning tunneling microscopy and tunneling spectroscopy. Physical Review B 50, 5810 (1994).
Gaisch, R. et al. Internal structure of C60 fullerence molecules as revealed by low-temperature STM. Applied Physics A 57, 207–210 (1993).
Gaisch, R. et al. Internal structure of C60 on Au (110) as observed by low-temperature scanning tunneling microscopy. Journal of Vacuum Science & Technology B 12, 2153–2155 (1994).
Gimzewski, J. K. et al. Investigations of the surface of the amorphous alloy Fe< sub> 80 B< sub> 20 by STM, XPS and AES. Journal of non-crystalline solids 116, 253–261 (1990).
Local Experiments Using Nanofabricated Structures in STM. NATO ASI SERIES E APPLIED SCIENCES 235, 219–219 (1993).
Gaisch, R. et al. Low-temperature ultra-high-vacuum scanning tunneling microscope. Ultramicroscopy 42, 1621–1626 (1992).
Manipulation of C 60 molecules on Cu (111) surfaces using a scanning tunneling microscope. Applied Physics A: Materials Science & Processing 66, S669–S673 (1998).
Jr, J. T. Yates et al. Materials index. Surface Science 386, 351–354 (1997).
Observation of a chemical reaction using a micromechanical sensor. Chemical Physics Letters 217, 589–594 (1994).
Observation of a new Au (111) reconstruction at the interface of an adsorbed C< sub> 60 overlayer. Chemical physics letters 213, 401–406 (1993).
Observation of local photoemission using a scanning tunneling microscope. Ultramicroscopy 42, 366–370 (1992).
Observation of mass transport on Au (110)-(1$\times$ 2) reconstructed surfaces using scanning tunneling microscopy. Surface Science Letters 247, A213 (1990).
Observation of mass transport on Au (110)-(1$\times$ 2) reconstructed surfaces using scanning tunneling microscopy. Surface Science 247, 327–332 (1991).
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).
Observation of the temporal evolution of the (1$\times$ 2) reconstructed Au (110) surface using scanning tunneling microscopy. Journal of Vacuum Science & Technology B 9, 897–901 (1991).
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).
Berndt, R. et al. Photon emission from adsorbed C60 molecules with sub-nanometer lateral resolution. Applied Physics A 57, 513–516 (1993).
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).
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).
Dumas, P. et al. Photon spectroscopy, mapping, and topography of 85% porous silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
Dumaks, P. et al. Photon Spectroscopy, Mapping, and Topography of 85-Percent Porous Silicon. Journal of Vacuum Science & Technology B 12, 2064–2066 (1994).
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).
Scanning tunneling microscopy of individual molecules: beyond imaging. Surface science 386, 101–114 (1997).
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).
Schlittler, R. R. et al. Single crystals of single-walled carbon nanotubes formed by self-assembly. Science 292, 1136–1139 (2001).