Scanning tunneling microscopy in La₂₋₂xSr₁₊₂xMn₂O₇ and honeycomb lattice in HOPG with a CNT-STM tip

Kim, Jeehoon, 1970-

23 August 2011

Not available / text

Scanning tunneling microscopy

Carbon

Nanotubes

Investigation of gold nanocrystals by ultrahigh vacuum cryogenic scanning tunneling microscopy

Harrell, Lee E.

05 1900

No description available.

Scanning tunneling microscopy

Nanostructure materials

Coulostatic binding of plasmid DNA on chemically modified gold surfaces for imaging by scanning tunneling microscopy

Jones, Jeffry Alexander

08 1900

No description available.

Molecular cloning

Scanning tunneling microscopy

Scanning tunneling microscopy studies of a reactive interface, Ni/GaAs

Quesenberry, Paul Elwin

05 1900

No description available.

Scanning tunneling microscopy

Gas dynamics

Scanning Tunneling Microscopy Investigation of Rare Earth Silicide and Alkaline Earth Fluoride Nanostructures on Silicon(001) Surfaces

Cui, Yan Jr.

30 August 2011

Many low dimensional structures arise from self-assembly when depositing metals on silicon surfaces, including both quantum dots and quantum wires. One class of these objects are rare earth silicide nanowires (RENW) grown on Si(001). In this dissertation, NW thermal stability, control of NW cross section, and associated surface reconstructions are studied by Scanning Tunneling Microscopy (STM). We test thulium and find for the first time that it forms NWs and these NWs are stable against prolonged annealing. We also find that the RENWs nucleate at 2×7 reconstruction domain boundaries. These results pave the way for precise control over NW size, placement, and integration with functional nanostructures and nanodevices.Another type of self-assembled NWs on Si(001) are insulating CaF2 NWs. As an ideal model system for epitaxial growth of an insulator on a semiconductor surface, CaF2 offers unique properties such as simple structure, good lattice match to silicon and congruent evaporation. In this thesis the growth behavior of CaF2 on the Si(001) surface is investigated. At low coverages CaF2 molecules randomly locate on Si(001). Features observed at this stage are explained in terms of dissociated fragments of CaF2 terminating the dangling bonds of Si dimers. Etching is observed after surface is saturated by these features with a 2×1 periodicity. A 2×n phase, grown at 750°C, suggests the dissociation of CaF2, as proved by the simulation of LEED patterns. A c(4×4) phase is observed from 0.5ML to about 1ML with deposition temperature from 600oC to 700oC. At the highest CaF2 deposition coverages studied, a stripe phase and CaF2 NWs are observed by a combination of STM, AFM and SEM. The results provide a significant expansion in the knowledge of CaF2 on Si(001). The common thread that links all these studies is the extent to which nanostructures can be controlled by careful growth conditions, not just by substrate temperature and the amount of material deposited, but also by timing of post-deposition annealing, etc. The grown nanostructures are metastable and result from a balance of energetic considerations and kinetics.

Scanning Tunneling Microscopy

Nanotechnology

0794

Scanning Tunneling Microscopy Investigation of Rare Earth Silicide and Alkaline Earth Fluoride Nanostructures on Silicon(001) Surfaces

Cui, Yan Jr.

30 August 2011

Many low dimensional structures arise from self-assembly when depositing metals on silicon surfaces, including both quantum dots and quantum wires. One class of these objects are rare earth silicide nanowires (RENW) grown on Si(001). In this dissertation, NW thermal stability, control of NW cross section, and associated surface reconstructions are studied by Scanning Tunneling Microscopy (STM). We test thulium and find for the first time that it forms NWs and these NWs are stable against prolonged annealing. We also find that the RENWs nucleate at 2×7 reconstruction domain boundaries. These results pave the way for precise control over NW size, placement, and integration with functional nanostructures and nanodevices.Another type of self-assembled NWs on Si(001) are insulating CaF2 NWs. As an ideal model system for epitaxial growth of an insulator on a semiconductor surface, CaF2 offers unique properties such as simple structure, good lattice match to silicon and congruent evaporation. In this thesis the growth behavior of CaF2 on the Si(001) surface is investigated. At low coverages CaF2 molecules randomly locate on Si(001). Features observed at this stage are explained in terms of dissociated fragments of CaF2 terminating the dangling bonds of Si dimers. Etching is observed after surface is saturated by these features with a 2×1 periodicity. A 2×n phase, grown at 750°C, suggests the dissociation of CaF2, as proved by the simulation of LEED patterns. A c(4×4) phase is observed from 0.5ML to about 1ML with deposition temperature from 600oC to 700oC. At the highest CaF2 deposition coverages studied, a stripe phase and CaF2 NWs are observed by a combination of STM, AFM and SEM. The results provide a significant expansion in the knowledge of CaF2 on Si(001). The common thread that links all these studies is the extent to which nanostructures can be controlled by careful growth conditions, not just by substrate temperature and the amount of material deposited, but also by timing of post-deposition annealing, etc. The grown nanostructures are metastable and result from a balance of energetic considerations and kinetics.

Scanning Tunneling Microscopy

Nanotechnology

0794

A UHV variable temperature STM and its application to the study of high-T(C) superconductors and carbon nanotubes /

Lee, Jinho,

January 2002

Thesis (Ph. D.)--University of Texas at Austin, 2002. / Vita. Includes bibliographical references (leaves 70-77). Available also in an electronic version.

A UHV variable temperature STM and its application to the study of high-T(C) superconductors and carbon nanotubes

Lee, Jinho,

January 2002

Thesis (Ph. D.)--University of Texas at Austin, 2002. / Vita. Includes bibliographical references.

Scanning tunneling microscopy in La₂₋₂xSr₁₊₂xMn₂O₇ and honeycomb lattice in HOPG with a CNT-STM tip

Kim, Jeehoon,

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references.

Scanning probe microscopy investigation of bilayered manganites

Huang, Junwei,

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references.