Add to ORKGABSTRACT: Construction of permanent metal−molecule− metal (MMM) junctions, though technically challenging, is desirable for both fundamental investigations and applications of molecule-based electronics. In this study, we employed the nanotransfer printing (nTP) technique using perfluoropo-lyether (PFPE) stamps to print Au thin films onto self-assembled monolayers (SAMs) of alkanedithiol formed on Au thin films. We show that the resulting MMM junctions form permanent and symmetrical tunnel junctions, without the need for an additional protection layer between the top metal electrode and the molecular layer. This type of junction makes it possible for direct investigations into the electrical properties of the molecules and the metal−molecul...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
The authors report the contact printing of a Au/Co double layer (total thickness ∼20–40nm) onto a se...
We introduce a novel approach, nanotransfer printing (nTP), to fabricate top-contact electrodes in A...
We present the characterization of a decanedithiol monolayer using a technique which is based on mic...
Electronic transport through single molecules has been studied extensively by academic(1-8) and indu...
Diffusion of metal atoms onto a molecular monolayer attached to a conducting surface permits electro...
The realization of high-yield, stable molecular junctions has been a long-standing challenge in the ...
A method is described for fabricating and electrically characterizing large-area (100–400 μm2) metal...
Why use thiols in Molecular Electronics? They stink, oxidize readily, poison catalysts, and often re...
We demonstrate the charge transport properties of a self-assembled organic monolayer on Au nanoplate...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
The electrical transport through self-assembled monolayers of alkanedithiols was studied in large-ar...
Tuning the charge transport through a metal-molecule-metal junction by changing the interface proper...
We report the results of an extensive investigation of metal–molecule–metal tunnel junctions based o...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
The authors report the contact printing of a Au/Co double layer (total thickness ∼20–40nm) onto a se...
We introduce a novel approach, nanotransfer printing (nTP), to fabricate top-contact electrodes in A...
We present the characterization of a decanedithiol monolayer using a technique which is based on mic...
Electronic transport through single molecules has been studied extensively by academic(1-8) and indu...
Diffusion of metal atoms onto a molecular monolayer attached to a conducting surface permits electro...
The realization of high-yield, stable molecular junctions has been a long-standing challenge in the ...
A method is described for fabricating and electrically characterizing large-area (100–400 μm2) metal...
Why use thiols in Molecular Electronics? They stink, oxidize readily, poison catalysts, and often re...
We demonstrate the charge transport properties of a self-assembled organic monolayer on Au nanoplate...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
The electrical transport through self-assembled monolayers of alkanedithiols was studied in large-ar...
Tuning the charge transport through a metal-molecule-metal junction by changing the interface proper...
We report the results of an extensive investigation of metal–molecule–metal tunnel junctions based o...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
Activation energies, Ea, measured from molecular exchange experiments are combined with atomic-scale...
The authors report the contact printing of a Au/Co double layer (total thickness ∼20–40nm) onto a se...