Photoswitching molecular electronic devices with reduced graphene oxide (rGO) top electrodes on flexible substrates are fabricated and characterized. It has been reported previously that diarylethene molecular devices with poly-(3,4-ethylenedioxythiophene) stabilized with poly-(4-styrenesulfonic acid)/Au top electrodes can hold two stable electrical conductance states when the devices are exposed to UV or visible light during device fabrication. However, those devices fail to show the reversible switching phenomenon in response to illumination after device fabrication. By employing conducting and transparent rGO top electrodes, it is demonstrated that the diarylethene molecular devices show a reversible switching phenomenon, i.e., the fabri...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
A major goal of molecular electronics is the development and implementation of devices such as singl...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
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...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
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 reliable and reproducible solid-state molecular electronic device that shows bidirectional conduct...
Photochromic molecules are part of a large class of materials in which light stimulus not only induc...
Reversible conductance photoswitching behaviors of single diarylethene molecule have garnered increa...
Photochromic molecules are part of a large class of materials in which light stimulus not only induc...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
A major goal of molecular electronics is the development and implementation of devices such as singl...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...
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...
A great challenge to present-day applied science is to develop electronic devices at the nanometer s...
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 reliable and reproducible solid-state molecular electronic device that shows bidirectional conduct...
Photochromic molecules are part of a large class of materials in which light stimulus not only induc...
Reversible conductance photoswitching behaviors of single diarylethene molecule have garnered increa...
Photochromic molecules are part of a large class of materials in which light stimulus not only induc...
Light-controlled conductance switching of diarylethenes attached to Au(111) is reported (see figure)...
A major goal of molecular electronics is the development and implementation of devices such as singl...
We report on the light-induced switching of conductance of a new generation of diarylethene switches...