An electrically driven molecular rotor device comprised of a monolayer of redox-active ligated copper compounds sandwiched between a gold electrode and a highly doped P+Si substrate was fabricated. Current-voltage spectroscopy revealed a temperature-dependent negative differential resistance (NDR) associated with the device. Time-dependent density functional theory suggests the source of the observed NDR to be redox-induced ligand rotation around the copper metal center, an explanation consistent with the proposed energy diagram of the device. An observed temperature dependence of the NDR behavior further supports this hypothesis
A donor-acceptor system, 4-thiophenyl-azafulleroid (4TPA-C60), is investigated at the point of HOMO/...
This paper describes the transition from the normal to inverted Marcus region in solid-state tunnel ...
The authors observed a negative differential resistance (NDR) in organic devices consisting of 9,10-...
An electrically driven molecular rotor device comprised of a monolayer of redox-active ligated coppe...
A novel memory device based on an electrically driven molecular rotor was fabricated and demonstrate...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
We investigate here a possible mechanism for the room temperature negative differential resistance (...
A new mechanism is proposed to explain the origin of negative differential resistance (NDR) in a str...
A robust, nanoelectromechanical switch is proposed based upon an asymmetric pendant moiety anchored ...
THESIS 8431Nanoscience includes the study of objects and systems in which at least one dimension is ...
International audienceWe demonstrate, based on low-temperature scanning tunneling microscopy (STM) a...
The electrical transport properties of the molecular nanosilver chain have been investigated. We obs...
We report on the effects of device processing conditions, and of changing the electrode materials, o...
The negative differential resistance (NDR) response of Nb/NbOx/Pt cross-point devices is shown to ha...
Tunneling spectroscopy measurements have been carried out on a single molecule device formed by two ...
A donor-acceptor system, 4-thiophenyl-azafulleroid (4TPA-C60), is investigated at the point of HOMO/...
This paper describes the transition from the normal to inverted Marcus region in solid-state tunnel ...
The authors observed a negative differential resistance (NDR) in organic devices consisting of 9,10-...
An electrically driven molecular rotor device comprised of a monolayer of redox-active ligated coppe...
A novel memory device based on an electrically driven molecular rotor was fabricated and demonstrate...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
We investigate here a possible mechanism for the room temperature negative differential resistance (...
A new mechanism is proposed to explain the origin of negative differential resistance (NDR) in a str...
A robust, nanoelectromechanical switch is proposed based upon an asymmetric pendant moiety anchored ...
THESIS 8431Nanoscience includes the study of objects and systems in which at least one dimension is ...
International audienceWe demonstrate, based on low-temperature scanning tunneling microscopy (STM) a...
The electrical transport properties of the molecular nanosilver chain have been investigated. We obs...
We report on the effects of device processing conditions, and of changing the electrode materials, o...
The negative differential resistance (NDR) response of Nb/NbOx/Pt cross-point devices is shown to ha...
Tunneling spectroscopy measurements have been carried out on a single molecule device formed by two ...
A donor-acceptor system, 4-thiophenyl-azafulleroid (4TPA-C60), is investigated at the point of HOMO/...
This paper describes the transition from the normal to inverted Marcus region in solid-state tunnel ...
The authors observed a negative differential resistance (NDR) in organic devices consisting of 9,10-...