International audienceWe report the fabrication of VO2 -based two terminal devices with 125-nm gaps between the two electrodes, using a simple, cost-effective method employing optical lithography and shadow evaporation. Current-voltage characteristics of the obtained devices show a main abrupt metal-insulator transition (MIT) in the VO2 film with voltage threshold values of several volts, followed by secondary MIT steps due to the nanostructured morphology of the layer. By applying to the two-terminal device a pulsed voltage over the MIT threshold, the measured switching time was as low as 4.5 ns and its value does not significantly change with device temperature, supporting the evidence of an electronically drive
The metal-insulator transition (MIT) in strongly correlated oxides has attracted considerable attent...
Among the vanadium oxides, VO2 has attracted a lot of attention due to its remarkable metal-insulato...
Phase transitions in correlated materials can be manipulated at the nanoscale to yield emergent func...
International audienceWe report the fabrication of VO2 -based two terminal devices with 125-nm gaps ...
International audienceWe present the out-of-plane non-linear electrical properties of vanadium dioxi...
Two-terminal thin film VO2 devices show an abrupt decrease of resistance when the current or voltage...
Nanoscale manipulation of materials' physicochemical properties offers distinguished possibility to ...
International audienceElectrically activated metal-insulator transition (MIT) in vanadium dioxide (V...
International audienceVanadium dioxide (VO2) is undergoing a reversible insulator-to-metal transitio...
The ability to grow VO2 films by electrochemical methods would open a low-cost, easily scalable prod...
200 nm diameter Au contacts were fabricated by e-beam lithography on sputtered thin film vanadium ox...
International audienceOne of the emerging fields in nano-electronics is the adaptive electronics bas...
Miniaturization has the potential to reduce the size, cost, and power requirements of active optical...
Vanadium dioxide (VO2) is a correlated material exhibiting a sharp insulator-to-metal phase transiti...
We report the electrical and optical activation of the insulator-To-metallic transition in vanadium ...
The metal-insulator transition (MIT) in strongly correlated oxides has attracted considerable attent...
Among the vanadium oxides, VO2 has attracted a lot of attention due to its remarkable metal-insulato...
Phase transitions in correlated materials can be manipulated at the nanoscale to yield emergent func...
International audienceWe report the fabrication of VO2 -based two terminal devices with 125-nm gaps ...
International audienceWe present the out-of-plane non-linear electrical properties of vanadium dioxi...
Two-terminal thin film VO2 devices show an abrupt decrease of resistance when the current or voltage...
Nanoscale manipulation of materials' physicochemical properties offers distinguished possibility to ...
International audienceElectrically activated metal-insulator transition (MIT) in vanadium dioxide (V...
International audienceVanadium dioxide (VO2) is undergoing a reversible insulator-to-metal transitio...
The ability to grow VO2 films by electrochemical methods would open a low-cost, easily scalable prod...
200 nm diameter Au contacts were fabricated by e-beam lithography on sputtered thin film vanadium ox...
International audienceOne of the emerging fields in nano-electronics is the adaptive electronics bas...
Miniaturization has the potential to reduce the size, cost, and power requirements of active optical...
Vanadium dioxide (VO2) is a correlated material exhibiting a sharp insulator-to-metal phase transiti...
We report the electrical and optical activation of the insulator-To-metallic transition in vanadium ...
The metal-insulator transition (MIT) in strongly correlated oxides has attracted considerable attent...
Among the vanadium oxides, VO2 has attracted a lot of attention due to its remarkable metal-insulato...
Phase transitions in correlated materials can be manipulated at the nanoscale to yield emergent func...