Add to ORKGMolecular electronics investigates the use of molecules in electronic devices. An important question is how the chemical structure influences the charge transport properties and how the molecules are integrated into an electrical circuit. From a chemical point of view, this can be addressed by the design and synthesis of molecules with well-defined features that are able to perform electronic functions. In the first part, we review the field of molecular electronics and especially the correlation between the molecular conformation and the optoelectronic properties in diphenyl acetylene derivatives. This thesis is focused on the design and synthesis of dinaphthyl acetylene with controlled torsion angles. A linker of varying length connects ...
The understanding of a dye’s electronic nature is fundamentally important as well as vital to the ra...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...
The synthesis and characterisation of a range of oligo(aryleneethynylene)derivatives end-capped with...
We report on the study of a molecular torsional switch made up of two distinct aromatic moieties bou...
We present a new class of possible molecular torsional switches tuned by an external electric field....
Herein, we describe a method to fine-tune the conductivity of single-molecule wires by employing a c...
A convenient two-step, one-pot synthesis of oligo(arylene-ethynylene) (OAE) type molecular wires in ...
We present an investigation of building blocks for molecular torsional switches made up of two disti...
Materials based upon the aryleneethynylene skeleton are currently of great interest. The fluorescent...
The realization of molecular electronics demands a detailed knowledge of the correlation between che...
A series of diarylacetylene (tolane) derivatives functionalised at the 4- and 4′-positions by thiola...
Twisting anthracene and higher acenes can alter their optical, magnetic, and electronic properties. ...
We explore both experimentally and theoretically the conductance and packing of molecular junctions ...
The understanding of a dye’s electronic nature is fundamentally important as well as vital to the ra...
The understanding of a dye’s electronic nature is fundamentally important as well as vital to the ra...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...
The synthesis and characterisation of a range of oligo(aryleneethynylene)derivatives end-capped with...
We report on the study of a molecular torsional switch made up of two distinct aromatic moieties bou...
We present a new class of possible molecular torsional switches tuned by an external electric field....
Herein, we describe a method to fine-tune the conductivity of single-molecule wires by employing a c...
A convenient two-step, one-pot synthesis of oligo(arylene-ethynylene) (OAE) type molecular wires in ...
We present an investigation of building blocks for molecular torsional switches made up of two disti...
Materials based upon the aryleneethynylene skeleton are currently of great interest. The fluorescent...
The realization of molecular electronics demands a detailed knowledge of the correlation between che...
A series of diarylacetylene (tolane) derivatives functionalised at the 4- and 4′-positions by thiola...
Twisting anthracene and higher acenes can alter their optical, magnetic, and electronic properties. ...
We explore both experimentally and theoretically the conductance and packing of molecular junctions ...
The understanding of a dye’s electronic nature is fundamentally important as well as vital to the ra...
The understanding of a dye’s electronic nature is fundamentally important as well as vital to the ra...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...
Molecular electronics (ME) represents a frontier for electronics. Designing electronic devices at th...