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Carbon Electrodes In Molecular Electronics
A. Bergren, A. Bergren, Oleksii Ivashenko, Oleksii Ivashenko
Published 2015 · Materials Science
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Current–voltage characteristics of tunneling molecular junctions for off-resonance injection
V. Mujica (2001)
Microfabrication and integration of diazonium-based aromatic molecular junctions.
Jie Ru (2010)
Graphene: the new two-dimensional nanomaterial.
C. N. Rao (2009)
Effects of Surface Monolayers on the Electron-Transfer Kinetics and Adsorption of Methyl Viologen and Phenothiazine Derivatives on Glassy Carbon Electrodes
Hseuh-Hui Yang (1999)
Mercury−Mercury Tunneling Junctions. 1. Electron Tunneling Across Symmetric and Asymmetric Alkanethiolate Bilayers
K. Slowinski (1999)
Long‐Range Electron Transfer in Donor (Spacer) Acceptor Molecules and Proteins
B. Bowler (2007)
Reversibly light-modulated dirac point of graphene functionalized with spiropyran.
A. Jang (2012)
Current-induced cleaning of graphene
J. Moser (2007)
High performance n-type carbon nanotube field-effect transistors with chemically doped contacts.
A. Javey (2005)
Progress with molecular electronic junctions: meeting experimental challenges in design and fabrication.
R. McCreery (2009)
Mechanism of rectification in tunneling junctions based on molecules with asymmetric potential drops.
C. A. Nijhuis (2010)
Comparison of SAM-Based Junctions with Ga2O3/EGaIn Top Electrodes to Other Large-Area Tunneling Junctions
C. A. Nijhuis (2012)
Electric Field Effect in Atomically Thin Carbon Films
K. Novoselov (2004)
A simple scheme of molecular electronic devices with multiwalled carbon nanotubes as the top electrodes
Jason P. Moscatello (2012)
Photo-switchable molecular monolayer anchored between highly transparent and flexible graphene electrodes.
S. Seo (2013)
Self-assembly of carbon nanotubes into two-dimensional geometries using DNA origami templates.
Hareem T Maune (2010)
Electron Transfer at Electrodes through Conjugated “Molecular Wire” Bridges
S. Creager (1999)
Discharge From Hot Cao
C. D. Child (1911)
In situ Structural Characterization of Metal−Molecule−Silicon Junctions Using Backside Infrared Spectroscopy
A. Scott (2008)
Electron Energetics at Surfaces and Interfaces: Concepts and Experiments†
D. Cahen (2003)
Polymer electrolyte-gated organic field-effect transistors: low-voltage, high-current switches for organic electronics and testbeds for probing electrical transport at high charge carrier density.
M. Panzer (2007)
Transition from direct tunneling to field emission in metal-molecule-metal junctions.
Jeremy M. Beebe (2006)
Chemically modified electrodes
R. Murray (1980)
Carbon nanotube electronics--moving forward.
C. Wang (2013)
Chemical pathways in the interactions of reactive metal atoms with organic surfaces: vapor deposition of Ca and Ti on a methoxy-terminated alkanethiolate monolayer on Au.
A. Walker (2005)
Ultrathin Films of Single-Walled Carbon Nanotubes for Electronics and Sensors: A Review of Fundamental and Applied Aspects
Q. Cao (2009)
Conductance of a Molecular Junction
M. Reed (1997)
Activationless charge transport across 4.5 to 22 nm in molecular electronic junctions
Haijun Yan (2013)
Through-Bond and Chain-to-Chain Coupling. Two Pathways in Electron Tunneling through Liquid Alkanethiol Monolayers on Mercury Electrodes
K. Slowinski (1997)
Analytical challenges in molecular electronics.
R. McCreery (2006)
Electrical conduction through single molecules and self-assembled monolayers
H. Akkerman (2008)
All-carbon molecular tunnel junctions.
Haijun Yan (2011)
High-field quasiballistic transport in short carbon nanotubes.
A. Javey (2004)
Controlled synthesis of large-area and patterned electrochemically reduced graphene oxide films.
M. Zhou (2009)
Graphene electrochemistry: fundamental concepts through to prominent applications.
D. Brownson (2012)
High-field electrical transport in single-wall carbon nanotubes
Towards wafer-size graphene layers by atmospheric pressure graphitization of silicon carbide.
K. Emtsev (2009)
Molecular electronic devices based on single-walled carbon nanotube electrodes.
Alina K. Feldman (2008)
A new view of electrochemistry at highly oriented pyrolytic graphite.
A. Patel (2012)
The dynamics of noble metal atom penetration through methoxy-terminated alkanethiolate monolayers.
A. Walker (2004)
Heterogeneous electron-transfer kinetics for ruthenium and ferrocene redox moieties through alkanethiol monolayers on gold.
J. F. Smalley (2003)
Graphene: an emerging electronic material.
Nathan O. Weiss (2012)
Chemically functionalized carbon nanotubes.
K. Balasubramanian (2005)
A roadmap for graphene
K. Novoselov (2012)
Are Single Molecular Wires Conducting?
L. A. Bumm (1996)
Surface Functionalization in the Nanoscale Domain
R. L. McCreery (2012)
Electrochemistry at .omega.-hydroxythiol coated electrodes. 2. Measurement of the density of electronic states distributions for several outer-sphere redox couples
C. Miller (1991)
A molecular half-wave rectifier.
C. A. Nijhuis (2011)
Y-contacted high-performance n-type single-walled carbon nanotube field-effect transistors: scaling and comparison with Sc-contacted devices.
Li Ding (2009)
Electrochemistry at .omega.-hydroxy thiol coated electrodes. 4. Comparison of the double layer at .omega.-hydroxy thiol and alkanethiol monolayer coated Au electrodes
A. Becka (1993)
Contact resistance in metal-molecule-metal junctions based on aliphatic SAMs: effects of surface linker and metal work function.
Jeremy M. Beebe (2002)
Structural correlations in heterogeneous electron transfer at monolayer and multilayer graphene electrodes.
A. Güell (2012)
Carbon Nanotube Inter- and Intramolecular Logic Gates
V. Derycke (2001)
Electron-beam evaporated silicon as a top contact for molecular electronic device fabrication.
R. Kumar (2011)
Scalable complementary logic gates with chemically doped semiconducting carbon nanotube transistors.
S. Lee (2011)
A new approach for molecular electronic junctions with a multilayer graphene electrode.
G. Wang (2011)
Photoresist‐Derived Carbon for Microelectromechanical Systems and Electrochemical Applications
S. Ranganathan (2000)
Towards molecular electronics with large-area molecular junctions
H. Akkerman (2006)
Tunneling conductivity of one- and two-component alkanethiol bilayers in Hg–Hg junctions
R. L. York (2003)
Charge transport and rectification in arrays of SAM-based tunneling junctions.
C. A. Nijhuis (2010)
Charge transport in molecular electronic junctions: Compression of the molecular tunnel barrier in the strong coupling regime
S. Y. Sayed (2012)
A roadmap to high quality chemically prepared graphene
R. Gengler (2010)
Direct voltammetric detection of DNA and pH sensing on epitaxial graphene: an insight into the role of oxygenated defects.
Cheng Xiang Lim (2010)
Influence of defects on the electrical characteristics of mercury-drop junctions: self-assembled monolayers of n-alkanethiolates on rough and smooth silver.
E. Weiss (2007)
Interface Barrier Energy Determination from Voltage Dependence of Photoinjected Currents
R. Powell (1970)
Mechanical Control of Spin States in Spin-1 Molecules and the Underscreened Kondo Effect
J. J. Parks (2010)
Effects of Interface Roughness on Electronic Transport Properties of Nanotube-Molecule-Nanotube Junctions
Xiao-Fei Li (2010)
Generalized Formula for the Electric Tunnel Effect between Similar Electrodes Separated by a Thin Insulating Film
J. Simmons (1963)
Frequency-and electric-field-dependent conductivity of single-walled carbon nanotube networks of varying density
H. Xu (2008)
Electron transfer and electronic conduction through an intervening medium.
P. Edwards (2008)
Singling out the electrochemistry of individual single-walled carbon nanotubes in solution.
D. Paolucci (2008)
Energetics of metal–organic interfaces: New experiments and assessment of the field
Jaehyung Hwang (2009)
Anomalously large reactivity of single graphene layers and edges toward electron transfer chemistries.
R. Sharma (2010)
Fine Structure Constant Defines Visual Transparency of Graphene
R. R. Nair (2008)
Transition from tunneling to hopping transport in long, conjugated oligo-imine wires connected to metals.
S. Choi (2010)
Making contact : Connecting molecules electrically to the macroscopic world
H. Haick (2008)
Functional single-molecule devices based on SWNTs as point contacts
Xuefeng Guo (2009)
Electronic transport in oligo-para-phenylene junctions attached to carbon nanotube electrodes: Transition-voltage spectroscopy and chirality
C. B. Silva (2011)
Molecular tunnel junctions based on π-conjugated oligoacene thiols and dithiols between Ag, Au, and Pt contacts: effect of surface linking group and metal work function.
B. Kim (2011)
Multilayer graphene-coated atomic force microscopy tips for molecular junctions.
Yugeng Wen (2012)
Towards Integrated Molecular Electronic Devices: Characterization of Molecular Layer Integrity During Fabrication Processes
A. Mahmoud (2011)
Charge transfer at junctions of a single layer of graphene and a metallic single walled carbon nanotube.
Geraldine L. C. Paulus (2013)
Measuring relative barrier heights in molecular electronic junctions with transition voltage spectroscopy.
Jeremy M. Beebe (2008)
Electronic Conductance Behavior of Carbon-Based Molecular Junctions with Conjugated Structures
Franklin Anariba (2002)
Temperature Dependence of Three-Terminal Molecular Junctions with Sulfur End-Functionalized Tercyclohexylidenes
M. Poot (2006)
Self-assembled monolayers of thiolates on metals as a form of nanotechnology.
J. Love (2005)
Generalized Thermal J‐V Characteristic for the Electric Tunnel Effect
J. Simmons (1964)
Self assembled monolayers on silicon for molecular electronics.
D. Aswal (2006)
Ultraviolet—Visible Spectroelectrochemistry of Chemisorbed Molecular Layers on Optically Transparent Carbon Electrodes
Hong Tian (2007)
Electron tunneling through alkanedithiol self-assembled monolayers in large-area molecular junctions
H. Akkerman (2007)
Measurement of Single-Molecule Resistance by Repeated Formation of Molecular Junctions
B. Xu (2003)
Comparison of Electronic Transport Measurements on Organic Molecules
Adi Salomon (2003)
Single-wall-carbon-nanotube/single-carbon-chain molecular junctions
F. Boerrnert (2010)
Electroanalytical performance of carbon films with near-atomic flatness.
Sushilee Ranganathan (2001)
Covalently Bonded Organic Monolayers on a Carbon Substrate: A New Paradigm for Molecular Electronics
S. Ranganathan (2001)
Carbon nanotube quantum resistors
Charge Transfer on the Nanoscale: Current Status
D. Adams (2003)
Sub-10 nm carbon nanotube transistor
A. Franklin (2011)
Stretchable, large-area organic electronics.
T. Sekitani (2010)
Top-Down versus Bottom-Up Fabrication of Graphene-Based Electronics
J. Tour (2014)
Formation of Metal−Molecule−Metal Tunnel Junctions: Microcontacts to Alkanethiol Monolayers with a Conducting AFM Tip
David J. Wold and (2000)
Probing hopping conduction in conjugated molecular wires connected to metal electrodes
Liang Luo (2011)
A review of chemical vapour deposition of graphene on copper
C. Mattevi (2011)
Controlled carbon-nanotube junctions self-assembled from graphene nanoribbons.
L. He (2009)
Derivatization of optically transparent materials with diazonium reagents for spectroscopy of buried interfaces.
A. Mahmoud (2009)
The merger of electrochemistry and molecular electronics.
R. McCreery (2012)
Molecular electronics with carbon nanotubes.
P. Avouris (2002)
Direct optical determination of interfacial transport barriers in molecular tunnel junctions.
Jerry A Fereiro (2013)
High-performance semiconducting nanotube inks: progress and prospects.
N. Rouhi (2011)
Energy‐Level Alignment at Organic/Metal and Organic/Organic Interfaces
S. Braun (2009)
Covalently Bridging Gaps in Single-Walled Carbon Nanotubes with Conducting Molecules
Xuefeng Guo (2006)
Contacting organic molecules by soft methods: towards molecule-based electronic devices.
H. Haick (2008)
Toward functional molecular devices based on graphene-molecule junctions.
Yang Cao (2013)
A critical perspective on molecular electronic junctions: there is plenty of room in the middle.
R. McCreery (2013)
Electrical Resistance of Long Conjugated Molecular Wires
Seong Ho Choi (2008)
Thermal stability of confined flip-chip laminated ω-functionalized monolayers
M. Coll (2009)
Doping-Free Fabrication of Carbon Nanotube Based Ballistic CMOS Devices and Circuits
Zhiyong Zhang (2007)
Adsorbed .omega.-hydroxy thiol monolayers on gold electrodes: evidence for electron tunneling to redox species in solution
C. Miller (1991)
Functionalized acenes and heteroacenes for organic electronics.
J. Anthony (2006)
Micrometer-scale ballistic transport in encapsulated graphene at room temperature.
A. Mayorov (2011)
Charge conduction and breakdown mechanisms in self-assembled nanodielectrics.
Sara A Dibenedetto (2009)
Alkanethiol self-assembled monolayers as the dielectric of capacitors with nanoscale thickness
M. A. Rampi (1998)
Thermionic Emission, Field Emission, and the Transition Region
E. L. Murphy (1956)
Mercury–mercury tunneling junctions: Part II. Structure and stability of symmetric alkanethiolate bilayers and their effect on the rate of electron tunneling
K. Slowinski (2000)
Molecular electronics using diazonium-derived adlayers on carbon with Cu top contacts: critical analysis of metal oxides and filaments.
A. Bergren (2008)
Band structure, phonon scattering, and the performance limit of single-walled carbon nanotube transistors.
X. Zhou (2005)
Molecular Electronics Devices: A Short Review
J. Nero (2010)
Self-Aligned Ballistic Molecular Transistors and Electrically Parallel Nanotube Arrays
A. Javey (2004)
A Superexchange-Mediated Sequential Hopping Theory for Charge Transfer in DNA
Xinqi Li (2001)
Helical microtubules of graphitic carbon
S. Iijima (1991)
Photoinjection into SiO2: Use of Optical Interference to Determine Electron and Hole Contributions
R. J. Powell (1969)
Strong effects of molecular structure on electron transport in carbon/molecule/copper electronic junctions.
Franklin Anariba (2005)
On Pre-Breakdown Phenomena in Insulators and Electronic Semi-Conductors
J. Frenkel (1938)
Statistical Tools for Analyzing Measurements of Charge Transport
W. Reus (2012)
Analytical chemistry in molecular electronics.
A. Bergren (2011)
Carbon Nanotube Field-Effect Transistors with Integrated Ohmic Contacts and High-κ Gate Dielectrics
A. Javey (2004)
Solution-processed reduced graphene oxide films as electronic contacts for molecular monolayer junctions.
S. Seo (2012)
Chemically Modified Electrodes
G. Edwards (2007)
Electrochemistry at .omega.-hydroxy thiol coated electrodes. 3. Voltage independence of the electron tunneling barrier and measurements of redox kinetics at large overpotentials
A. Becka (1992)
ENERGY LEVEL ALIGNMENT AND INTERFACIAL ELECTRONIC STRUCTURES AT ORGANIC/METAL AND ORGANIC/ORGANIC INTERFACES
H. Ishii (1999)
Thermal properties of graphene and nanostructured carbon materials.
A. Balandin (2011)
The role of van der Waals forces in the performance of molecular diodes.
Nisachol Nerngchamnong (2013)
Electronic Characteristics and Charge Transport Mechanisms for Large Area Aromatic Molecular Junctions
A. Bergren (2010)
Electrochemistry of graphene : not such a beneficial electrode material?
D. Brownson (2011)
Debundling and dissolution of single-walled carbon nanotubes in amide solvents.
C. Furtado (2004)
The Analysis of Photoelectric Sensitivity Curves for Clean Metals at Various Temperatures
R. H. Fowler (1931)
Chemical vapor deposition of carbon nanotubes: a review on growth mechanism and mass production.
M. Kumar (2010)
Solution-processed ultrathin chemically derived graphene films as soft top contacts for solid-state molecular electronic junctions.
Tao Li (2012)
Comment on electrochemical kinetics at ordered graphite electrodes.
R. McCreery (2012)
Voltammetry of carbon nanotubes and graphenes: excitement, disappointment, and reality.
M. Pumera (2012)
Macroelectronic integrated circuits using high-performance separated carbon nanotube thin-film transistors.
C. Wang (2010)
Electronic structure and electrical properties of interfaces between metals and π‐conjugated molecular films
A. Kahn (2003)
Redox kinetics for ferrocene groups immobilized in impermeable and permeable self-assembled monolayers
Lisa A. Hockett (1995)
Electron Emission in Intense Electric Fields
R. H. Fowler (1928)
Tuning the conductance of a molecular switch.
M. del Valle (2007)
Molecular electronics with single molecules in solid-state devices.
K. Moth-Poulsen (2009)
Stability of large-area molecular junctions
H. Akkerman (2010)
Graphene oxide-facilitated electron transfer of metalloproteins at electrode surfaces.
X. Zuo (2010)
Continuous production of carbon nanotubes – A review
Lim Siang Ying (2011)
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