Variable-Temperature Scanning Tunneling Microscopy and Scanning Tunneling Spectroscopy Study on Copper Phthalocyanine Ultrathin Films on a Au(111) Surface

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2002.093 ◽

2002 ◽

Vol 2 (2) ◽

pp. 139-142 ◽

Author(s):

M. S. Xu ◽

J. B. Xu ◽

K. Xue ◽

J. An ◽

J. Z. He ◽

...

Keyword(s):

Scanning Tunneling Microscopy ◽

Ultrathin Films ◽

Copper Phthalocyanine ◽

Variable Temperature ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Spectroscopy Study ◽

Tunneling Microscopy ◽

Temperature Scanning

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Low Temperature Scanning Tunneling Microscopy and Scanning Tunneling Spectroscopy Study at the α-Sn/Ge(111) Surface

Japanese Journal of Applied Physics ◽

10.1143/jjap.45.2180 ◽

2006 ◽

Vol 45 (3B) ◽

pp. 2180-2183 ◽

Author(s):

F. Ronci ◽

S. Colonna ◽

S. D. Thorpe ◽

A. Cricenti ◽

G. Le Lay

Keyword(s):

Low Temperature ◽

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Spectroscopy Study ◽

Tunneling Microscopy ◽

Temperature Scanning

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Study of YBCO/Au Surface Using Low-Temperature Scanning Tunneling Microscopy/Scanning Tunneling Spectroscopy

Japanese Journal of Applied Physics ◽

10.1143/jjap.31.3525 ◽

1992 ◽

Vol 31 (Part 1, No. 11) ◽

pp. 3525-3528 ◽

Author(s):

Masao Koyanagi ◽

Satoshi Kashiwaya ◽

Hiroshi Akoh ◽

Satoshi Kohjiro ◽

Mizushi Matsuda ◽

...

Keyword(s):

Low Temperature ◽

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Temperature Scanning

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Combined scanning tunneling microscopy/spectroscopy study on the surface electronic structure of GaAs(100) with spatially resolved scanning tunneling spectroscopy spectra

Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena ◽

10.1116/1.587211 ◽

1994 ◽

Vol 12 (5) ◽

pp. 2901

Author(s):

Nan Li

Keyword(s):

Electronic Structure ◽

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Spectroscopy Study ◽

Tunneling Microscopy ◽

Spatially Resolved ◽

Surface Electronic Structure

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Tuning the Electronic Structure of Graphite Moiré with Chromium Deposition: a Scanning Tunneling Microscopy and Scanning Tunneling Spectroscopy Study

The Journal of Physical Chemistry C ◽

10.1021/jp506558j ◽

2014 ◽

Vol 118 (35) ◽

pp. 20461-20465 ◽

Author(s):

Xin Zhang ◽

Hong Luo

Keyword(s):

Electronic Structure ◽

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Spectroscopy Study ◽

Tunneling Microscopy

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Scanning tunneling microscopy/scanning tunneling spectroscopy study of Ge and Si dimers on Si substrates

Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena ◽

10.1116/1.587694 ◽

1994 ◽

Vol 12 (3) ◽

pp. 2022 ◽

Author(s):

Masahiko Tomitori

Keyword(s):

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Spectroscopy Study ◽

Tunneling Microscopy ◽

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Scanning Tunneling Microscopy and Scanning Tunneling Spectroscopy Studies of Powdery Palladium/Graphite Model Catalysts†

Langmuir ◽

10.1021/la9816003 ◽

1999 ◽

Vol 15 (18) ◽

pp. 5765-5772 ◽

Author(s):

J. Schneider ◽

C. Wambach ◽

B. Pennemann ◽

K. Wandelt

Keyword(s):

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Model Catalysts ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Spectroscopy Studies

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Successive oxidation stages and annealing behavior of the Si(111) 7×7 surface observed with scanning tunneling microscopy and scanning tunneling spectroscopy

Journal of Vacuum Science & Technology B Microelectronics Processing and Phenomena ◽

10.1116/1.585509 ◽

1991 ◽

Vol 9 (2) ◽

pp. 775 ◽

Author(s):

J. P. Pelz

Keyword(s):

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Annealing Behavior

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Surface characterization of Al–Cu–Fe thin films by scanning tunneling microscopy and scanning tunneling spectroscopy

Applied Surface Science ◽

10.1016/s0169-4332(99)00105-1 ◽

1999 ◽

Vol 147 (1-4) ◽

pp. 140-145 ◽

Author(s):

V Srinivas ◽

S Kasiviswanathan ◽

Pranabesh Barua ◽

B.K Mathur

Keyword(s):

Scanning Tunneling Microscopy ◽

Surface Characterization ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Tunneling Microscopy

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Nanoparticle characterization based on STM and STS

Chemical Society Reviews ◽

10.1039/c4cs00204k ◽

2015 ◽

Vol 44 (4) ◽

pp. 970-987 ◽

Author(s):

Shinya Kano ◽

Tsukasa Tada ◽

Yutaka Majima

Keyword(s):

Solid State ◽

Scanning Tunneling Microscopy ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Nanoparticle Characterization

Scanning tunneling microscopy (STM) and scanning tunneling spectroscopy (STS) can characterize intriguing nanoparticle properties towards solid-state nanodevices.

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Local Electronic Structure in Ordered Aggregates of Carbon Nanotubes: Scanning Tunneling Microscopy/scanning Tunneling Spectroscopy Study

Journal of Materials Research ◽

10.1557/jmr.1998.0332 ◽

1998 ◽

Vol 13 (9) ◽

pp. 2389-2395 ◽

Author(s):

D. L. Carroll ◽

P. M. Ajayan ◽

S. Curran

Keyword(s):

Carbon Nanotubes ◽

Electronic Structure ◽

Scanning Tunneling Microscopy ◽

Local Density ◽

Scanning Tunneling Spectroscopy ◽

Tunneling Spectroscopy ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Spatially Resolved ◽

Local Electronic Structure

The recent application of tunneling probes in electronic structure studies of carbon nanotubes has proven both powerful and challenging. Using scanning tunneling microscopy (STM) and scanning tunneling spectroscopy (STS), local electronic properties in ordered aggregates of carbon nanotubes (multiwalled nanotubes and ropes of single walled nanotubes) have been probed. In this report, we present evidence for interlayer (concentric tube) interactions in multiwalled tubes and tube-tube interactions in singlewalled nanotube ropes. The spatially resolved, local electronic structure, as determined by the local density of electronic states, is shown to clearly reflect tube-tube interactions in both of these aggregate forms.

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