In situ scanning tunneling microscopy (STM), atomic force microscopy (AFM) and quartz crystal microbalance (EQCM) studies of the electrochemical deposition of tantalum in two different ionic liquids with the 1-butyl-1-methylpyrrolidinium cation

The initial stages of the anodic oxidation of Au(111) were investigated by means of cyclic voltammetry as well as in situ scanning tunneling microscopy (STM). The results suggest that the place exchange process, which initiates the oxide formation, starts at step edges. The oxide phase was imaged in situ by scanning tunneling and atomic force microscopy (AFM). The topographic information acquired by the two techniques is compared. Keywords: gold, gold oxide, corrosion, scanning tunneling microscopy (STM), atomic force microscopy (AFM).

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Electrochemical and in situ atomic force microscopy and scanning tunneling microscopy investigations of titanium in oxalic acid solution

Journal of Vacuum Science & Technology A Vacuum Surfaces and Films ◽

10.1116/1.577856 ◽

1992 ◽

Vol 10 (5) ◽

pp. 3001-3006 ◽

Cited By ~ 21

Author(s):

Gilbert M. Brown ◽

T. Thundat ◽

D. P. Allison ◽

R. J. Warmack

Keyword(s):

Atomic Force Microscopy ◽

Oxalic Acid ◽

Acid Solution ◽

Scanning Tunneling Microscopy ◽

Oxalic Acid Solution ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Force Microscopy ◽

Atomic Force

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The Observation of Electrochemical Dissolution of Lithium Metal Using Electrochemical Quartz Crystal Microbalance and in-Situ Tapping Mode Atomic Force Microscopy

Langmuir ◽

10.1021/la980850g ◽

1998 ◽

Vol 14 (25) ◽

pp. 7082-7086 ◽

Cited By ~ 13

Author(s):

Soshi Shiraishi ◽

Kiyoshi Kanamura

Keyword(s):

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Electrochemical Quartz Crystal Microbalance ◽

Electrochemical Dissolution ◽

Lithium Metal ◽

Force Microscopy ◽

Atomic Force ◽

Mode Atomic Force Microscopy

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Investigation on gold corrosion by in situ quartz crystal microbalance and atomic force microscopy in self-assembled processes of alkanethiol monolayers

Materials Letters ◽

10.1016/j.matlet.2005.06.047 ◽

2005 ◽

Vol 59 (28) ◽

pp. 3687-3693 ◽

Cited By ~ 6

Author(s):

Zhong Cao ◽

Ning Gu

Keyword(s):

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Force Microscopy ◽

Atomic Force ◽

Self Assembled

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In Situ Atomic Force Microscopy and Electrochemical Quartz Crystal Microbalance Studies on the Electrodeposition and Oxidation of Silicon

The Journal of Physical Chemistry C ◽

10.1021/acs.jpcc.8b02462 ◽

2018 ◽

Vol 122 (26) ◽

pp. 14499-14510 ◽

Cited By ~ 3

Author(s):

Abhishek Lahiri ◽

Giridhar Pulletikurthi ◽

Niklas Behrens ◽

Tong Cui ◽

Frank Endres

Keyword(s):

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Electrochemical Quartz Crystal Microbalance ◽

Force Microscopy ◽

Atomic Force

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In Situ Adsorption Studies of a 14-Amino Acid Leucine-Lysine Peptide onto Hydrophobic Polystyrene and Hydrophilic Silica Surfaces Using Quartz Crystal Microbalance, Atomic Force Microscopy, and Sum Frequency Generation Vibrational Spectroscopy

Journal of the American Chemical Society ◽

10.1021/ja056031h ◽

2006 ◽

Vol 128 (11) ◽

pp. 3598-3607 ◽

Cited By ~ 154

Author(s):

Ozzy Mermut ◽

Diana C. Phillips ◽

Roger L. York ◽

Keith R. McCrea ◽

Robert S. Ward ◽

...

Keyword(s):

Atomic Force Microscopy ◽

Amino Acid ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Sum Frequency ◽

Force Microscopy ◽

Silica Surfaces ◽

In Situ Adsorption ◽

Atomic Force

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Time Resolved in Situ Liquid Atomic Force Microscopy and Simultaneous Acoustic Impedance Electrochemical Quartz Crystal Microbalance Measurements: A Study of Zn Deposition

Analytical Chemistry ◽

10.1021/ac901329e ◽

2009 ◽

Vol 81 (20) ◽

pp. 8466-8471 ◽

Cited By ~ 36

Author(s):

Emma L. Smith ◽

John C. Barron ◽

Andrew P. Abbott ◽

Karl S. Ryder

Keyword(s):

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Acoustic Impedance ◽

Quartz Crystal ◽

Electrochemical Quartz Crystal Microbalance ◽

Time Resolved ◽

Force Microscopy ◽

Atomic Force

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In Situ Adsorption Studies at the Solid/Liquid Interface:Characterization of Biological Surfaces and Interfaces Using SumFrequency Generation Vibrational Spectroscopy, Atomic Force Microscopy,and Quartz Crystal Microbalance

10.2172/883802 ◽

2006 ◽

Author(s):

Diana Christine Phillips

Keyword(s):

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Force Microscopy ◽

In Situ Adsorption ◽

Surfaces And Interfaces ◽

Atomic Force ◽

Biological Surfaces ◽

Solid Liquid

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In situ atomic force microscopy combined with a quartz-crystal microbalance study of Ag electrodeposition on Pt thin film

Applied Physics A ◽

10.1007/s003390051183 ◽

1998 ◽

Vol 66 (7) ◽

pp. S463-S466 ◽

Cited By ~ 9

Author(s):

F. Iwata ◽

K. Saruta ◽

A. Sasaki

Keyword(s):

Thin Film ◽

Atomic Force Microscopy ◽

Quartz Crystal Microbalance ◽

Quartz Crystal ◽

Force Microscopy ◽

Atomic Force

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Exploring Intramolecular Methyl–Methyl Coupling on a Metal Surface for Edge-Extended Graphene Nanoribbons

Organic Materials ◽

10.1055/s-0041-1726295 ◽

2021 ◽

Vol 03 (02) ◽

pp. 128-133

Author(s):

Zijie Qiu ◽

Qiang Sun ◽

Shiyong Wang ◽

Gabriela Borin Barin ◽

Bastian Dumslaff ◽

...

Keyword(s):

Raman Spectroscopy ◽

Atomic Force Microscopy ◽

High Resolution ◽

Graphene Nanoribbons ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Force Microscopy ◽

Methyl Methyl ◽

Atomic Force ◽

Edge Extension

Intramolecular methyl–methyl coupling on Au (111) is explored as a new on-surface protocol for edge extension in graphene nanoribbons (GNRs). Characterized by high-resolution scanning tunneling microscopy, noncontact atomic force microscopy, and Raman spectroscopy, the methyl–methyl coupling is proven to indeed proceed at the armchair edges of the GNRs, forming six-membered rings with sp3- or sp2-hybridized carbons.

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