Add to ORKGMolecular diodes operating in the tunnelling regime are intrinsically limited to a maximum rectification ratio R of 103. To enhance this rectification ratio to values comparable to those of conventional diodes (R ≥ 10 5) an alternative mechanism of rectification is therefore required. Here, we report a molecular diode with R = 6.3 × 105 based on self-assembled monolayers with Fc-Câ ‰ C-Fc (Fc, ferrocenyl) termini. The number of molecules (n(V)) involved in the charge transport changes with the polarity of the applied bias. More specifically, n(V) increases at forward bias because of an attractive electrostatic force between the positively charged Fc units and the negatively charged top electrode, but remains constant at reverse bias when th...
Rectification has been at the foundation of molecular electronics. Most single-molecule diodes reali...
In recent years, a wide range of single-molecule devices has been realized, enabled by technological...
This Communication describes the mechanism of charge transport across self-assembled monolayers (SAM...
A challenge in molecular electronics is to control the strength of the molecule-electrode coupling t...
International audienceThere has been significant work investigating the use of self assembled monola...
International audienceThere has been significant work investigating the use of self assembled monola...
This paper describes a molecular diode with high, statistically robust, rectification ratios <i>R</i...
Ferrocene (Fc) is a widely used building block of molecular rectifiers in the context of molecular e...
As traditional devices containing silicon transistors begin to approach their physical limits, new s...
This paper describes tunneling junctions comprising self-assembled monolayers that can be converted ...
This paper describes the transition from the normal to inverted Marcus region in solid-state tunnel ...
We have designed and synthesized a molecular rod that consists of two weakly coupled electronic π -s...
A vertical gate symmetrical molecular transistor is demonstrated. It includes self assembled monolay...
This paper describes tunneling junctions comprising self-assembled monolayers that can be converted ...
ABSTRACT: Molecular rectification is a particularly attrac-tive phenomenon to examine in studying st...
Rectification has been at the foundation of molecular electronics. Most single-molecule diodes reali...
In recent years, a wide range of single-molecule devices has been realized, enabled by technological...
This Communication describes the mechanism of charge transport across self-assembled monolayers (SAM...
A challenge in molecular electronics is to control the strength of the molecule-electrode coupling t...
International audienceThere has been significant work investigating the use of self assembled monola...
International audienceThere has been significant work investigating the use of self assembled monola...
This paper describes a molecular diode with high, statistically robust, rectification ratios <i>R</i...
Ferrocene (Fc) is a widely used building block of molecular rectifiers in the context of molecular e...
As traditional devices containing silicon transistors begin to approach their physical limits, new s...
This paper describes tunneling junctions comprising self-assembled monolayers that can be converted ...
This paper describes the transition from the normal to inverted Marcus region in solid-state tunnel ...
We have designed and synthesized a molecular rod that consists of two weakly coupled electronic π -s...
A vertical gate symmetrical molecular transistor is demonstrated. It includes self assembled monolay...
This paper describes tunneling junctions comprising self-assembled monolayers that can be converted ...
ABSTRACT: Molecular rectification is a particularly attrac-tive phenomenon to examine in studying st...
Rectification has been at the foundation of molecular electronics. Most single-molecule diodes reali...
In recent years, a wide range of single-molecule devices has been realized, enabled by technological...
This Communication describes the mechanism of charge transport across self-assembled monolayers (SAM...