The first studies of a tetrathiafulvalene-sigma-acceptor molecular rectifier (original) (raw)
The First Studies of a Tetrathiafulvalene-σ-Acceptor Molecular Rectifier
Mykola Kondratenko
Chemistry - A European Journal, 2005
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In Search of Molecular Rectifiers. The Donor−σ−Acceptor System Derived from Triptycenequinone and Tetrathiafulvalene
Robert Metzger
Journal of Organic Chemistry, 1998
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Strategies for Design of New Organic Molecular Rectifiers: Chemical and Molecular-Simulation Perspectives
Morad El-Hendawy
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THEORETICAL STUDY OF DONOR–SPACER–ACCEPTOR STRUCTURE MOLECULE FOR STABLE MOLECULAR RECTIFIER
Yoshiyuki Kawazoe
Molecular Crystals and Liquid Crystals, 2003
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Molecular rectification with M|(D-σ-A LB film)|M junctions
Christopher Ewels
Journal of Materials Chemistry, 1999
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In search of D-σ-A molecular rectifiers: the D-σ-A system derived from triptycenequinone and tetrathiafulvalene
Robert Metzger
Thin Solid Films, 1998
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Molecular rectification: Confirmation of its molecular origin by chemical suppression of the electrical asymmetry
Amir Aref
Synthetic Metals, 2009
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Control of Rectification in Molecular Junctions: Contact Effects and Molecular Signature
Jean-Christophe Lacroix
Journal of the American Chemical Society, 2017
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Theory of electrical rectification in a molecular monolayer
Guy Allan
2001
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Molecular rectification with M|(D-s-A LB film)|M junctions
Abdalla Musa
J Mater Chem, 1999
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A New Class of Extended Tetrathiafulvalene Cruciform Molecules for Molecular Electronics with Dithiafulvene-4,5-Dithiolate Anchoring Groups
Marco Santella
Advanced Materials, 2013
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Exploring the Performance of Molecular Rectifiers: Limitations and Factors Affecting Molecular Rectification
Rainer Hoft
Nano Letters, 2007
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Fluorinated benzalkylsilane molecular rectifiers
Martin Guthold
Scientific Reports, 2016
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Half-wave organic-rectifiers with donor/acceptor assemblies in the molecular scale
JAY PAL
Organic Electronics, 2009
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Molecular Rectification in a Metal−Insulator−Metal Junction Based on Self-Assembled Monolayers
Vladimiro Mujica
Journal of the American Chemical Society, 2002
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Tuning the Rectification Ratio by Changing the Electronic Nature (Open-Shell and Closed-Shell) in Donor-Acceptor Self-Assembled Monolayers
Jaume Veciana
Journal of the American Chemical Society, 2017
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Effect of asymmetric molecule–electrode coupling and molecular bias on rectification in molecular junctions
derick engles
Applied Physics A, 2016
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Progress towards organic single-monolayer rectifiers
Robert Metzger
Synthetic Metals, 1987
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Molecular rectification: self-assembled monolayers of a donor?(?-bridge)?acceptor chromophore connected via a truncated Au?S?(CH2)3 bridge
Wayne Tyrrell
Journal of Materials Chemistry, 2003
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Understanding the optical spectroscopy of amphiphilic molecular rectifiers: A density functional approach
Marek Szablewski
The Journal of Chemical Physics, 2010
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Verification and Temperature-Dependent Rectification by HBQ, the Smallest Unimolecular Donor–Acceptor Rectifier
Robert Metzger
ACS Omega
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Control of Electronic Symmetry and Rectification through Energy Level Variations in Bilayer Molecular Junctions
Jean-Christophe Lacroix
Journal of the American Chemical Society, 2016
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Molecular rectifiers and transistors based on π-conjugated materials
Seamus Curran
Synthetic Metals, 1998
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D-σ-A unimolecular rectifiers
Robert Metzger
Materials Science and Engineering: C, 1995
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Electrical Rectification in a Langmuir−Blodgett Monolayer of Dimethyanilinoazafullerene Sandwiched between Gold Electrodes
Gary Mankey
The Journal of Physical Chemistry B, 2003
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Induced Self-Assembly of a Tetrathiafulvalene-Based Open-Shell Dyad through Intramolecular Electron Transfer
Cristina Sissa
Angewandte Chemie International Edition, 2012
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Synthesis and Single-Molecule Conductances of Neutral and Cationic Indenofluorene-Extended Tetrathiafulvalenes: Kondo Effect Molecules
Ole Hammerich
The Journal of Organic Chemistry, 2016
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A single molecule rectifier with strong push-pull coupling
Bobby Sumpter
The Journal of Chemical Physics, 2008
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