Molecular Rectification: Self-Assembled Monolayers in Which Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically Coupled to Both Gold Electrodes

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Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Molecular rectification: self-assembled monolayers of a donor–(π
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Inverse Rectification in Donor–Acceptor Molecular Heterojunctions
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Molecular Electronics: Creating and Bridging Molecular Junctions
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Nanomaterials, Free Full-Text
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
a Molecular rectifier proposed by Aviram and Ratner in 1974. Upper
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Self assembled monolayers on silicon for molecular electronics
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Fluorinated benzalkylsilane molecular rectifiers
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Inverse Rectification in Donor–Acceptor Molecular Heterojunctions
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Unraveling the dynamics and structure of functionalized self
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Energy of the intramolecular charge-transfer band of the dyes
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Dynamics of Electron Transfer in Self-Assembled Monolayers with
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Understanding and Controlling Short- and Long-Range Electron
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Molecular rectifier composed of DNA with high rectification ratio
Molecular Rectification: Self-Assembled Monolayers in Which  Donor−(π-Bridge)−Acceptor Moieties Are Centrally Located and Symmetrically  Coupled to Both Gold Electrodes
Formation of High-Quality Self-Assembled Monolayers of Conjugated
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