We present a solid state single molecule electronic device where switching between two states with different conductance happens predominantly by tunneling of an entire C-60 molecule. This conclusion is based on a novel statistical analysis of similar to 10(5) switching events. The analysis yields (i) the relative contribution of tunneling, current induced heating and thermal fluctuations to the switching mechanism, (ii) the voltage dependent energy barrier (similar to 100-200 meV) separating the two states of the switch and (iii) the switching attempt frequency, omega(0) corresponding to a 2.8 meV mode, which is most likely rotational
The possibility of fabricating electronic devices with functional building blocks of atomic size is ...
The simplest component of molecular electronics consists of a single-molecule transport junction: a ...
ABSTRACT Electrically tunable molecules are highly attractive for the construction of molecular devi...
We present a solid state single molecule electronic device where switching between two states with d...
International audienceWe study the model of a molecular switch comprised of a molecule with a soft v...
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This p...
Conductance switching in metal/molecule/metal structures has attracted tremendous and broad interest...
The concept of using single molecules as key building blocks for logic gates, diodes and transistors...
The creation of molecular electronic switches by using smart molecules is of great importance to the...
This article describes two‐terminal molecular switch tunnel junctions (MSTJs) which incorporate a se...
Abrupt switching behavior and near-zero leakage current of nanoelectromechanical (NEM) switches are ...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
This work proposes a new type of molecular machine, the single-molecule electric revolving door, whi...
Single molecular switches are basic device elements in organic electronics. The pentacene analogue a...
Single molecular switches are basic device elements in organic electronics. The pentacene analogue a...
The possibility of fabricating electronic devices with functional building blocks of atomic size is ...
The simplest component of molecular electronics consists of a single-molecule transport junction: a ...
ABSTRACT Electrically tunable molecules are highly attractive for the construction of molecular devi...
We present a solid state single molecule electronic device where switching between two states with d...
International audienceWe study the model of a molecular switch comprised of a molecule with a soft v...
Molecular electronics has been proposed as a pathway for high-density nanoelectronic devices. This p...
Conductance switching in metal/molecule/metal structures has attracted tremendous and broad interest...
The concept of using single molecules as key building blocks for logic gates, diodes and transistors...
The creation of molecular electronic switches by using smart molecules is of great importance to the...
This article describes two‐terminal molecular switch tunnel junctions (MSTJs) which incorporate a se...
Abrupt switching behavior and near-zero leakage current of nanoelectromechanical (NEM) switches are ...
The use of a functional molecular unit acting as a state variable provides an attractive alternative...
This work proposes a new type of molecular machine, the single-molecule electric revolving door, whi...
Single molecular switches are basic device elements in organic electronics. The pentacene analogue a...
Single molecular switches are basic device elements in organic electronics. The pentacene analogue a...
The possibility of fabricating electronic devices with functional building blocks of atomic size is ...
The simplest component of molecular electronics consists of a single-molecule transport junction: a ...
ABSTRACT Electrically tunable molecules are highly attractive for the construction of molecular devi...