Mechanically interlocked bistable supramolecular complexes are promising candidates of molecular electronics. Applying a multiscale computational approach, here we study the coherent charge transport properties of catenane monolayers sandwiched between Cu(111) electrodes. We demonstrate the robust nature of electrical switching behavior with respect to the variations in the monolayer packing density and the type of electrodes, as well as the thermal fluctuations of the molecules. We propose that the asymmetry of molecule-electrode barriers can be utilized to improve the switching ratio
Metal–molecule–metal junctions are the key components of molecular electronics circuits. Gaining a m...
A new azobenzene−thiophene molecular switch is designed, synthesized, and used to form self-assemble...
Metal-molecule-metal junctions are the key components of molecular electronics circuits. Gaining a m...
Mechanically interlocked bistable supramolecular complexes are promising candidates of molecular ele...
We present a first-principles study of the coherent charge transport properties of bistable [2]caten...
Electronic devices containing molecules as either passive or active (switching) components present t...
Solid-state tunnel junction devices were fabricated from Langmuir Blodgett molecular monolayers of a...
The influences of different physical environments on the thermodynamics associated with one key step...
We review the fascinating research on charge transport through switchable molecules. In the past dec...
This article describes two‐terminal molecular switch tunnel junctions (MSTJs) which incorporate a se...
We report a computational study of conformations and charge transport characteristics of biphenyldit...
A key target in molecular electronics has been molecules having switchable electrical properties. Sw...
The development of molecular electronic components has been accelerated by the promise of increased ...
A key target in molecular electronics has been molecules having switchable electrical properties. Sw...
This review focuses on molecular ensemble junctions in which the individual molecules of a monolayer...
Metal–molecule–metal junctions are the key components of molecular electronics circuits. Gaining a m...
A new azobenzene−thiophene molecular switch is designed, synthesized, and used to form self-assemble...
Metal-molecule-metal junctions are the key components of molecular electronics circuits. Gaining a m...
Mechanically interlocked bistable supramolecular complexes are promising candidates of molecular ele...
We present a first-principles study of the coherent charge transport properties of bistable [2]caten...
Electronic devices containing molecules as either passive or active (switching) components present t...
Solid-state tunnel junction devices were fabricated from Langmuir Blodgett molecular monolayers of a...
The influences of different physical environments on the thermodynamics associated with one key step...
We review the fascinating research on charge transport through switchable molecules. In the past dec...
This article describes two‐terminal molecular switch tunnel junctions (MSTJs) which incorporate a se...
We report a computational study of conformations and charge transport characteristics of biphenyldit...
A key target in molecular electronics has been molecules having switchable electrical properties. Sw...
The development of molecular electronic components has been accelerated by the promise of increased ...
A key target in molecular electronics has been molecules having switchable electrical properties. Sw...
This review focuses on molecular ensemble junctions in which the individual molecules of a monolayer...
Metal–molecule–metal junctions are the key components of molecular electronics circuits. Gaining a m...
A new azobenzene−thiophene molecular switch is designed, synthesized, and used to form self-assemble...
Metal-molecule-metal junctions are the key components of molecular electronics circuits. Gaining a m...