There has been considerable interest in engaging porphyrin, which plays a central role in a variety of biological processes, as a molecular device for bio-inspired system application. This paper is focused on molecular junctions made up of porphine, the metal-free counterpart of porphyrin, and graphene electrode. Electronic properties are elucidated using the density functional theory and non-equilibrium Green’s function method. Excellent coupling between the porphine molecule and graphene electrode is obtained by carbon-carbon covalent bonding and has been analyzed by the electron difference density. The current-voltage curve and the evolution of the transmission spectrum with applied voltage bias have also been investigated. A noteworthy ...
In this study, we fabricated and characterized vertical molecular junctions consisting of self-assem...
Based on the first-principles calculation method combining the density functional theory (DFT) and t...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
There has been considerable interest in engaging porphyrin, which plays a central role in a variety ...
There has been considerable interest in engaging porphyrin, which plays a central role in a variety ...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
The ability to control the nature of charge carriers in single-molecule junctions is of paramount im...
Recent advances in the engineering of pico-scale gaps between electroburnt graphene electrodes provi...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
We have studied the charge and thermal transport properties of a porphyrin-based single-molecule tra...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
In this study, we fabricated and characterized vertical molecular junctions consisting of self-assem...
Based on the first-principles calculation method combining the density functional theory (DFT) and t...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
There has been considerable interest in engaging porphyrin, which plays a central role in a variety ...
There has been considerable interest in engaging porphyrin, which plays a central role in a variety ...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
The ability to control the nature of charge carriers in single-molecule junctions is of paramount im...
Recent advances in the engineering of pico-scale gaps between electroburnt graphene electrodes provi...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...
We have studied the charge and thermal transport properties of a porphyrin-based single-molecule tra...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
In this study, we fabricated and characterized vertical molecular junctions consisting of self-assem...
Based on the first-principles calculation method combining the density functional theory (DFT) and t...
The possibility to study quantum interference phenomena at ambient conditions is an appealing featur...