Atomic features of a close‐packed metal surface have been observed for the first time by scanning tunneling microscopy in organic polar solvents. Evaporated gold films, exhibiting large reconstructed (111) terraces, have been imaged with a resolution far superior to previous results in aqueous environments
Vancea J, Reiss G, Schneider F, Bauer K, Hoffmann H. Substrate effects on the surface topography of ...
In situ electrochemical scanning tunneling microscopy (ESTM) was applied to gold surfaces (Au(100)) ...
Monolayer films formed by the self-assembly of organothiols at epitaxially grown Au(111) films at mi...
A tubular Scanning Tunneling Microscope has been constructed and operated in air under ambient condi...
Scanning Tunneling Microscopy (STM) is an efficient technique which allows imaging solid surfaces wi...
We present new experimental results of writing stable features on atomically flat surfaces of gold f...
Scanning Tunnelling Microscopy (STM) has been used to investigate various properties of functionalis...
The clean Au{100} surface is known to be reconstructed, forming a pseudohexagonal (5×27) outermost l...
Scanning-tunneling microscopy (STM) under electrochemical control (in situ STM) in aqueous solution,...
The physical nature of the aqueous tunnel barrier in a STM experiment is examined and the important ...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) of single atoms and molecules ...
We have used three-dimensional atom probe tomography to analyze several nanometer-thick and monomole...
The surface morphology of clean and adsorbate covered Au(111) has been systematically studied using ...
The growth of gold deposits on smooth glass from the vapor phase at 30 nm−1 s −1, 298 K, and inciden...
The mechanism of the early stages of the electrochemical faceting of Au(111) in 1 M aqueous sulfuric...
Vancea J, Reiss G, Schneider F, Bauer K, Hoffmann H. Substrate effects on the surface topography of ...
In situ electrochemical scanning tunneling microscopy (ESTM) was applied to gold surfaces (Au(100)) ...
Monolayer films formed by the self-assembly of organothiols at epitaxially grown Au(111) films at mi...
A tubular Scanning Tunneling Microscope has been constructed and operated in air under ambient condi...
Scanning Tunneling Microscopy (STM) is an efficient technique which allows imaging solid surfaces wi...
We present new experimental results of writing stable features on atomically flat surfaces of gold f...
Scanning Tunnelling Microscopy (STM) has been used to investigate various properties of functionalis...
The clean Au{100} surface is known to be reconstructed, forming a pseudohexagonal (5×27) outermost l...
Scanning-tunneling microscopy (STM) under electrochemical control (in situ STM) in aqueous solution,...
The physical nature of the aqueous tunnel barrier in a STM experiment is examined and the important ...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) of single atoms and molecules ...
We have used three-dimensional atom probe tomography to analyze several nanometer-thick and monomole...
The surface morphology of clean and adsorbate covered Au(111) has been systematically studied using ...
The growth of gold deposits on smooth glass from the vapor phase at 30 nm−1 s −1, 298 K, and inciden...
The mechanism of the early stages of the electrochemical faceting of Au(111) in 1 M aqueous sulfuric...
Vancea J, Reiss G, Schneider F, Bauer K, Hoffmann H. Substrate effects on the surface topography of ...
In situ electrochemical scanning tunneling microscopy (ESTM) was applied to gold surfaces (Au(100)) ...
Monolayer films formed by the self-assembly of organothiols at epitaxially grown Au(111) films at mi...
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