Add to ORKGWe investigate photochromic molecular switches that are self-assembled on gold. We use two experimental techniques; namely, the mechanically controllable break-junction technique to measure electronic transport, and UV/Vis spectroscopy to measure absorption. We observe switching of the molecules from the conducting to the insulating state when illuminated with visible light (λ = 546 nm), in spite of the gold surface plasmon absorption present around this wavelength. However, we fail to observe the reverse process which should occur upon illumination with UV light (λ = 313 nm). We attribute this to quenching of the excited state of the molecule in the open form by the presence of gold.
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
We investigate photochromic molecular switches that are self-assembled on gold. We use two experimen...
We investigate photochromic molecular switches that are self-assembled on gold. We use two experimen...
We have studied the electronic changes caused by light-induced isomerization of a photochromic molec...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
We report the ultrafast quenching of the ring-closure reaction in BTE-based photochromic switches se...
Controlling molecules in direct contact with surfaces is central to molecular electronics. Photochro...
We demonstrate reversible, light-controlled conductance switching of molecular devices based on phot...
The molecule-metal interface is of paramount importance for many devices and processes, and directly...
A major goal of molecular electronics is the development and implementation of devices such as singl...
Molecular electronics aims at gaining control over the operation of macroscopic devicesby employing ...
In an attempt to design molecular optoelectronic switches functioning in molecular junctions between...
The possible reduction of functional devices to molecular length scales provides many exciting possi...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
We investigate photochromic molecular switches that are self-assembled on gold. We use two experimen...
We investigate photochromic molecular switches that are self-assembled on gold. We use two experimen...
We have studied the electronic changes caused by light-induced isomerization of a photochromic molec...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
We report the ultrafast quenching of the ring-closure reaction in BTE-based photochromic switches se...
Controlling molecules in direct contact with surfaces is central to molecular electronics. Photochro...
We demonstrate reversible, light-controlled conductance switching of molecular devices based on phot...
The molecule-metal interface is of paramount importance for many devices and processes, and directly...
A major goal of molecular electronics is the development and implementation of devices such as singl...
Molecular electronics aims at gaining control over the operation of macroscopic devicesby employing ...
In an attempt to design molecular optoelectronic switches functioning in molecular junctions between...
The possible reduction of functional devices to molecular length scales provides many exciting possi...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...