Add to ORKGWe report a detailed investigation of the self-assembly of the organic semiconductor rubrene on low-index (100) and (110) facets of copper by scanning tunneling microscopy (STM) and supported by density functional theory (DFT) calculations. Rubrene adsorbs in orientations depending on substrate symmetry, resulting in different self-assembled motifs. STM images point to an asymmetric adsorption geometry, and DFT calculations further suggest that the molecule adsorbs in a twisted conformation
The nanofabrication of organic layers on metal and metal alloy surfaces was studied in this thesis b...
The role of dipole-dipole interactions in the self-assembly of dipolar organic molecules on surfaces...
The asymmetric molecule 4-[trans-2-(pyrid-4-yl-vinyl)] benzoic acid (PVBA) adsorbed on Cu(111) is ch...
We report a detailed investigation of the self-assembly of the organic semiconductor rubrene on low-...
We performed an ultra-high vacuum scanning tunneling microscopy (STM) investigation of the self-asse...
We investigated the adsorption properties and self-assembly of rubrene molecules on the copper oxide...
Coverage-dependent self-assembly of rubrene molecules on different noble metal surfaces, Au(111) and...
At present, organic molecules are among the best candidate "building blocks" for the construction of...
The adsorption and self-assembly of Gd@C-82 molecules on Cu(100) surface have been investigated usin...
Adsorption of thymine on a defined Cu(110) surface was studied using reflection-absorption infrared ...
Self-assembling organic molecule-metal interfaces exhibiting free-electron like (FEL) states offers ...
Employing molecular self-assembly for the fabrication of well-defined nanostructures on solid surfac...
Energy level alignment of rubrene adsorbed on Au(111) was studied by photoemission spectroscopy. Aft...
The oligothiophene molecule family has a tunable energy gap between the highest occupied and lowest ...
The Scanning Tunneling Microscope (STM) is well known as the best spatially resolved microscope toda...
The nanofabrication of organic layers on metal and metal alloy surfaces was studied in this thesis b...
The role of dipole-dipole interactions in the self-assembly of dipolar organic molecules on surfaces...
The asymmetric molecule 4-[trans-2-(pyrid-4-yl-vinyl)] benzoic acid (PVBA) adsorbed on Cu(111) is ch...
We report a detailed investigation of the self-assembly of the organic semiconductor rubrene on low-...
We performed an ultra-high vacuum scanning tunneling microscopy (STM) investigation of the self-asse...
We investigated the adsorption properties and self-assembly of rubrene molecules on the copper oxide...
Coverage-dependent self-assembly of rubrene molecules on different noble metal surfaces, Au(111) and...
At present, organic molecules are among the best candidate "building blocks" for the construction of...
The adsorption and self-assembly of Gd@C-82 molecules on Cu(100) surface have been investigated usin...
Adsorption of thymine on a defined Cu(110) surface was studied using reflection-absorption infrared ...
Self-assembling organic molecule-metal interfaces exhibiting free-electron like (FEL) states offers ...
Employing molecular self-assembly for the fabrication of well-defined nanostructures on solid surfac...
Energy level alignment of rubrene adsorbed on Au(111) was studied by photoemission spectroscopy. Aft...
The oligothiophene molecule family has a tunable energy gap between the highest occupied and lowest ...
The Scanning Tunneling Microscope (STM) is well known as the best spatially resolved microscope toda...
The nanofabrication of organic layers on metal and metal alloy surfaces was studied in this thesis b...
The role of dipole-dipole interactions in the self-assembly of dipolar organic molecules on surfaces...
The asymmetric molecule 4-[trans-2-(pyrid-4-yl-vinyl)] benzoic acid (PVBA) adsorbed on Cu(111) is ch...