Add to ORKGA great challenge to present-day applied science is to develop electronic devices at the nanometer scale based on molecules. Diarylethenes are promising synthetic photoswitchable (photochromic) molecules because of the outstanding fatigue-resistant light-induced reversible transformation as they undergo interconversion between two isomers, each having different charge transport properties. Progress towards the development of light switchable electronic devices based on diarylethene photochromic molecular switches is described in this thesis. The main focus is on fundamental aspects that require resolution before a fully operational device can be constructed. The central questions of the research are: synthetic availability and cost of the m...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
In recent years, the self-assembly of organic molecules has been employed to create complex smart ma...
Light-switching induced changes in the electronic properties of photochromic diarylethene, i.e., 1,2...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
We demonstrate reversible, light-controlled conductance switching of molecular devices based on phot...
A molecular switch: The conductance of a new molecular device based on graphene-molecule junctions w...
A reliable and reproducible solid-state molecular electronic device that shows bidirectional conduct...
A major goal of molecular electronics is the development and implementation of devices such as singl...
Photoswitching molecular electronic devices with reduced graphene oxide (rGO) top electrodes on fl e...
The electrical properties of diarylethene photoswitching molecular devices on flexible substrates ar...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
This Highlight reviews recent advances in developing light-controlled molecular switches that can be...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
In recent years, the self-assembly of organic molecules has been employed to create complex smart ma...
Light-switching induced changes in the electronic properties of photochromic diarylethene, i.e., 1,2...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
We demonstrate reversible, light-controlled conductance switching of molecular devices based on phot...
A molecular switch: The conductance of a new molecular device based on graphene-molecule junctions w...
A reliable and reproducible solid-state molecular electronic device that shows bidirectional conduct...
A major goal of molecular electronics is the development and implementation of devices such as singl...
Photoswitching molecular electronic devices with reduced graphene oxide (rGO) top electrodes on fl e...
The electrical properties of diarylethene photoswitching molecular devices on flexible substrates ar...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
This Highlight reviews recent advances in developing light-controlled molecular switches that can be...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
In recent years, the self-assembly of organic molecules has been employed to create complex smart ma...
Light-switching induced changes in the electronic properties of photochromic diarylethene, i.e., 1,2...