Molecular-scale electronics

[1]  L. Venkataraman,et al.  Variability of conductance in molecular junctions. , 2006, The journal of physical chemistry. B.

[2]  Paul L. McEuen,et al.  Fabrication of metallic electrodes with nanometer separation by electromigration , 1999 .

[3]  C. Merckling,et al.  Silicon−Molecules−Metal Junctions by Transfer Printing: Chemical Synthesis and Electrical Properties , 2007 .

[4]  M. Prato,et al.  Electrical Rectification in a Langmuir−Blodgett Monolayer of Dimethyanilinoazafullerene Sandwiched between Gold Electrodes , 2003 .

[5]  George M. Whitesides,et al.  Electron Transport through Thin Organic Films in Metal−Insulator−Metal Junctions Based on Self-Assembled Monolayers , 2001 .

[6]  J. Sagiv,et al.  On the formation and structure of self-assembling monolayers , 1984 .

[7]  A. W. Czanderna,et al.  Chemical and physical interactions at metal/self-assembled organic monolayer interfaces , 1994 .

[8]  David Cahen,et al.  Effect of molecule-metal electronic coupling on through-bond hole tunneling across metal-organic monolayer-semiconductor junctions. , 2002, Journal of the American Chemical Society.

[9]  Lionel Patrone,et al.  Direct comparison of the electronic coupling efficiency of sulfur and selenium alligator clips for molecules adsorbed onto gold electrodes , 2003 .

[10]  R. Powell Interface Barrier Energy Determination from Voltage Dependence of Photoinjected Currents , 1970 .

[11]  M. Steigerwald,et al.  Electronics and chemistry: varying single-molecule junction conductance using chemical substituents. , 2007, Nano letters.

[12]  A. W. Czanderna,et al.  Metal overlayers on organic functional groups of self-organized molecular assemblies. V. Ion scattering spectroscopy and x-ray photoelectron spectroscopy of Ag/COOH interfaces , 1995 .

[13]  Jonathan S. Lindsey,et al.  Characterization of charge storage in redox-active self-assembled monolayers , 2002 .

[14]  O. Seitz,et al.  What is the Barrier for Tunneling Through Alkyl Monolayers? Results from n‐ and p‐Si–Alkyl/Hg Junctions , 2007 .

[15]  Supriyo Datta,et al.  Current-Voltage Characteristics of Self-Assembled Monolayers by Scanning Tunneling Microscopy , 1997 .

[16]  L. P. Kouwenhoven,et al.  Nanometer-spaced electrodes with calibrated separation , 2002 .

[17]  C. Kergueris,et al.  Electron transport through a metal-molecule-metal junction , 1999, cond-mat/9904037.

[18]  John A. Rogers,et al.  Electrical Contacts to Molecular Layers by Nanotransfer Printing , 2003 .

[19]  J F Stoddart,et al.  Molecular-based electronically switchable tunnel junction devices. , 2001, Journal of the American Chemical Society.

[20]  Alexey Bezryadin,et al.  Nanofabrication of electrodes with sub-5 nm spacing for transport experiments on single molecules and metal clusters , 1997 .

[21]  J. Roy Sambles,et al.  Rectifying characteristics of Mg|(C16H33-Q3CNQ LB film)|Pt structures , 1990 .

[22]  John K. Tomfohr,et al.  Changes in the Electronic Properties of a Molecule When It Is Wired into a Circuit , 2002 .

[23]  Robert L. Opila,et al.  An in-situ X-ray photoelectron study of the interaction between vapor-deposited Ti atoms and functional groups at the surfaces of self-assembled monolayers , 1995 .

[24]  Bonnie A. Sheriff,et al.  A 160-kilobit molecular electronic memory patterned at 1011 bits per square centimetre , 2007, Nature.

[25]  Hans Kuhn,et al.  Tunneling through Fatty Acid Salt Monolayers , 1971 .

[26]  David Cahen,et al.  POLAR LIGAND ADSORPTION CONTROLS SEMICONDUCTOR SURFACE POTENTIALS , 1994 .

[27]  F. Rondelez,et al.  Silanization of Solid Substrates: A Step Toward Reproducibility , 1994 .

[28]  Jonathan S. Lindsey,et al.  Molecular Memories That Survive Silicon Device Processing and Real-World Operation , 2003, Science.

[29]  J. Tour,et al.  Are Single Molecular Wires Conducting? , 1996, Science.

[30]  Hongkun Park,et al.  Kondo resonance in a single-molecule transistor , 2002, Nature.

[31]  John R. Miller,et al.  Charge Transfer on the Nanoscale: Current Status , 2003 .

[32]  Erik H. Anderson,et al.  Nanoscale molecular-switch devices fabricated by imprint lithography , 2003 .

[33]  S. Lenfant Monocouches organiques auto-assemblées pour la réalisation de diodes moléculaires , 2001 .

[34]  Andy Hooper,et al.  The Interaction of Vapor-Deposited Al Atoms with CO2H Groups at the Surface of a Self-Assembled Alkanethiolate Monolayer on Gold† , 2000 .

[35]  C. Frisbie,et al.  Contact resistance in metal-molecule-metal junctions based on aliphatic SAMs: effects of surface linker and metal work function. , 2002, Journal of the American Chemical Society.

[36]  F. Schreiber Structure and growth of self-assembling monolayers , 2000 .

[37]  Alexander Wei,et al.  Scanning Tunneling Spectroscopy of Insulating Self-Assembled Monolayers on Au(111) , 2002 .

[38]  David L. Allara,et al.  Evidence for a Unique Chain Organization in Long Chain Silane Monolayers Deposited on Two Widely Different Solid Substrates , 1995 .

[39]  Tao Xu,et al.  Rectification by a Monolayer of Hexadecylquinolinium Tricyanoquinodimethanide between Gold Electrodes We thank the DOE-EPSCoR (DE-FC02-91-ER-75678) for financial support. , 2001, Angewandte Chemie.

[40]  D. Vuillaume,et al.  Inelastic tunneling spectra of an alkyl self-assembled monolayer using a MOS tunnel junction as a test-bed , 2005 .

[41]  G. Whitesides,et al.  Alkanethiol self-assembled monolayers as the dielectric of capacitors with nanoscale thickness , 1998 .

[42]  C Joachim,et al.  Direct determination of the energy required to operate a single molecule switch. , 2003, Physical review letters.

[43]  J. F. Stoddart,et al.  A [2]Catenane-Based Solid State Electronically Reconfigurable Switch , 2000 .

[44]  Jean-Marie Lehn,et al.  Supramolecular Chemistry—Scope and Perspectives Molecules, Supermolecules, and Molecular Devices (Nobel Lecture) , 1988 .

[45]  R Ochs,et al.  Driving current through single organic molecules. , 2001, Physical review letters.

[46]  V. Magnasco,et al.  On the angular shape of van der Waals dimers of small polar molecules: Chem. Phys. Letters 160 (1989) 469 , 1989 .

[47]  D. Vuillaume,et al.  Suppression of charge carrier tunneling through organic self-assembled monolayers. , 1996, Physical review letters.

[48]  M. Ratner,et al.  Electron Transport in Molecular Wire Junctions , 2003, Science.

[49]  A. Aviram,et al.  Evidence of switching and rectification by a single molecule effected by a scanning tunneling microscope: Chem. Phys. Letters 146 (1988) 490 , 1989 .

[50]  Hylke B. Akkerman,et al.  Towards molecular electronics with large-area molecular junctions , 2006, Nature.

[51]  Gilles Horowitz,et al.  Low‐Operating‐Voltage Organic Transistors Made of Bifunctional Self‐Assembled Monolayers , 2007 .

[52]  J. Pitters,et al.  Detailed studies of molecular conductance using atomic resolution scanning tunneling microscopy. , 2006, Nano letters.

[53]  Guillermo C. Bazan,et al.  Magnetic directed assembly of molecular junctions , 2005 .

[54]  A. Aviram Molecules for memory, logic and amplification , 1988 .

[55]  R. Metzger,et al.  The Quest for Unimolecular Devices , 1991 .

[56]  Dominique Vuillaume,et al.  Low-voltage, 30 nm channel length, organic transistors with a self-assembled monolayer as gate insulating films , 2000 .

[57]  David Cahen,et al.  Molecular electronic tuning of Si surfaces , 1997 .

[58]  C. Frisbie,et al.  Length-dependent transport in molecular junctions based on SAMs of alkanethiols and alkanedithiols: effect of metal work function and applied bias on tunneling efficiency and contact resistance. , 2004, Journal of the American Chemical Society.

[59]  R. Maoz,et al.  On the formation and structure of self-assembling monolayers. I. A comparative atr-wettability study of Langmuir—Blodgett and adsorbed films on flat substrates and glass microbeads , 1984 .

[60]  D C Ralph,et al.  Spin-dependent transport in molecular tunnel junctions. , 2004, Physical review letters.

[61]  Nongjian Tao,et al.  Atom-size gaps and contacts between electrodes fabricated with a self-terminated electrochemical method , 2002 .

[62]  C. Daniel Frisbie,et al.  Formation of Metal−Molecule−Metal Tunnel Junctions: Microcontacts to Alkanethiol Monolayers with a Conducting AFM Tip , 2000 .

[63]  J. Baldwin,et al.  Rectification and Nonlinear Optical Properties of a Langmuir−Blodgett Monolayer of a Pyridinium Dye , 2002 .

[64]  Kurt Stokbro,et al.  Do Aviram-Ratner diodes rectify? , 2003, Journal of the American Chemical Society.

[65]  M. Steigerwald,et al.  Single-molecule circuits with well-defined molecular conductance. , 2006, Nano letters.

[66]  F. Rondelez,et al.  Evidence of a transition temperature for the optimum deposition of grafted monolayer coatings , 1992, Nature.

[67]  Jason D. Monnell,et al.  Conductance Switching in Single Molecules Through Conformational Changes , 2001, Science.

[68]  1/f γ tunnel current noise through Si-bound alkyl monolayers , 2007, cond-mat/0701477.

[69]  R. Stanley Williams,et al.  Molecule-Independent Electrical Switching in Pt/Organic Monolayer/Ti Devices , 2004 .

[70]  Nicholas Winograd,et al.  Bond insertion, complexation, and penetration pathways of vapor-deposited aluminum atoms with HO- and CH(3)O-terminated organic monolayers. , 2002, Journal of the American Chemical Society.

[71]  Mark E. Greene,et al.  Room Temperature Negative Differential Resistance through Individual Organic Molecules on Silicon Surfaces , 2004 .

[72]  Chen,et al.  Large On-Off Ratios and Negative Differential Resistance in a Molecular Electronic Device. , 1999, Science.

[73]  B. Rousset,et al.  Fabrication of co-planar metal-insulator-metal solid state nanojunctions down to 5 nm , 1999 .

[74]  D Vuillaume,et al.  Electron transport through rectifying self-assembled monolayer diodes on silicon: Fermi-level pinning at the molecule-metal interface. , 2006, The journal of physical chemistry. B.

[75]  R. Williams,et al.  Current rectification by molecules with asymmetric tunneling barriers , 2002, cond-mat/0206002.

[76]  Larry A. Nagahara,et al.  A Bond-Fluctuation Mechanism for Stochastic Switching in Wired Molecules , 2003, Science.

[77]  A. W. Czanderna,et al.  Interactions and penetration at metal/self‐assembled organic monolayer interfaces , 1996 .

[78]  Seth Copen Goldstein,et al.  NanoFabrics: spatial computing using molecular electronics , 2001, Proceedings 28th Annual International Symposium on Computer Architecture.

[79]  Marcel Mayor,et al.  Electronic transport through single conjugated molecules , 2002 .

[80]  M. Reed,et al.  Molecular random access memory cell , 2001 .

[81]  Colin Nuckolls,et al.  Dependence of single-molecule junction conductance on molecular conformation , 2006, Nature.

[82]  Wenyong Wang,et al.  Spin-polarized inelastic electron tunneling spectroscopy of a molecular magnetic tunnel junction , 2006 .

[83]  Francisco Zaera,et al.  Measurements of electron-transfer rates of charge-storage molecular monolayers on Si(100). Toward hybrid molecular/semiconductor information storage devices. , 2003, Journal of the American Chemical Society.

[84]  C. Cramer,et al.  The Nature of Electronic Contact in Self-Assembled Monolayers for Molecular Electronics: Evidence for Strong Coupling , 1999 .

[85]  J. Gimzewski,et al.  Electronics using hybrid-molecular and mono-molecular devices , 2000, Nature.

[86]  J. F. Stoddart,et al.  Nanoscale molecular-switch crossbar circuits , 2003 .

[87]  H I Kim,et al.  Role of stress on charge transfer through self-assembled alkanethiol monolayers on Au. , 2001, Physical review letters.

[88]  Arun Majumdar,et al.  Thermoelectricity in Molecular Junctions , 2007, Science.

[89]  J.P.A. van der Wagt,et al.  RTD/HFET low standby power SRAM gain cell , 1998, IEEE Electron Device Letters.

[90]  R. Metzger,et al.  The quest for unimolecular devices 101 , 1991 .

[91]  D. Vuillaume,et al.  Molecular rectifying diodes from self-assembly on silicon , 2003, cond-mat/0305594.

[92]  André DeHon,et al.  Stochastic assembly of sublithographic nanoscale interfaces , 2003 .

[93]  M. Reed,et al.  Conductance of a Molecular Junction , 1997 .

[94]  Ayelet Vilan,et al.  Soft Contact Deposition onto Molecularly Modified GaAs. Thin Metal Film Flotation: Principles and Electrical Effects , 2002 .

[95]  John K. Tomfohr,et al.  Reproducible Measurement of Single-Molecule Conductivity , 2001, Science.

[96]  David Cahen,et al.  Energetics of molecular interfaces , 2005 .

[97]  Norbert Koch,et al.  Electronic structure and electrical properties of interfaces between metals and π-conjugated molecular films , 2003 .

[98]  Chao Li,et al.  Data Storage Studies on Nanowire Transistors with Self-Assembled Porphyrin Molecules , 2004, The Journal of Physical Chemistry B.

[99]  M. Ratner,et al.  Effect of bond-length alternation in molecular wires. , 2002, Journal of the American Chemical Society.

[100]  Chongwu Zhou,et al.  Multilevel memory based on molecular devices , 2004 .

[101]  N. J. Geddes,et al.  Organic molecular rectifiers , 1995 .

[102]  Nongjian Tao,et al.  Quantized tunneling current in the metallic nanogaps formed by electrodeposition and etching , 2000 .

[103]  E. E. Polymeropoulos Electron tunneling through fatty‐acid monolayers , 1977 .

[104]  Dong-Chan Lee,et al.  Molecular diodes based on conjugated diblock co-oligomers. , 2002, Journal of the American Chemical Society.

[105]  Dominique Vuillaume,et al.  Electron Transfer through a Monolayer of Hexadecylquinolinium Tricyanoquinodimethanide , 1999 .

[106]  Amir Yacoby,et al.  Measurement of the conductance of single conjugated molecules , 2005, Nature.

[107]  A. Aviram,et al.  Evidence of switching and rectification by a single molecule effected with a scanning tunneling microscope , 1989 .

[108]  Mark A. Reed,et al.  Inelastic Electron Tunneling Spectroscopy of an Alkanedithiol Self-Assembled Monolayer , 2004 .

[109]  C. H. Patterson,et al.  Vibronic contributions to charge transport across molecular junctions , 2004 .

[110]  Jonathan S. Lindsey,et al.  Capacitance and conductance characterization of ferrocene-containing self-assembled monolayers on silicon surfaces for memory applications , 2002 .

[111]  D. Vuillaume,et al.  Theory of electrical rectification in a molecular monolayer , 2001, 1109.2695.

[112]  Tao Xu,et al.  Electrical Rectification by a Monolayer of Hexadecylquinolinium Tricyanoquinodimethanide Measured between Macroscopic Gold Electrodes , 2001 .

[113]  Charles M. Lieber,et al.  Nonvolatile Memory and Programmable Logic from Molecule-Gated Nanowires , 2002 .

[114]  Dominique Vuillaume,et al.  Optoelectronic Switch and Memory Devices Based on Polymer‐Functionalized Carbon Nanotube Transistors , 2006 .

[115]  D. Vuillaume,et al.  Electronic structure of a heterostructure of an alkylsiloxane self-assembled monolayer on silicon , 1998 .

[116]  A. Nitzan,et al.  Electron transmission through molecules and molecular interfaces. , 2001, Annual review of physical chemistry.

[117]  Yuyuan Tian,et al.  Measurement of Single-Molecule Resistance by Repeated Formation of Molecular Junctions , 2003, Science.

[118]  Zhifeng Huang,et al.  Measurement of current-induced local heating in a single molecule junction. , 2006, Nano letters.

[119]  R. Metzger The unimolecular rectifier: unimolecular electronic devices are coming … , 1999 .

[120]  Marcel Mayor,et al.  A single-molecule diode. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[121]  Role of interfaces on the direct tunneling and the inelastic tunneling behaviors through metal/alkylsilane/silicon junctions , 2006 .

[122]  Yossi Rosenwaks,et al.  Controlling surfaces and interfaces of semiconductors using organic molecules , 1998 .

[123]  Tomaso Zambelli,et al.  Direct comparison of the electronic coupling efficiency of sulfur and selenium anchoring groups for molecules adsorbed onto gold electrodes , 2002 .

[124]  Jonas I. Goldsmith,et al.  Coulomb blockade and the Kondo effect in single-atom transistors , 2002, Nature.

[125]  C Joachim,et al.  Conformational changes of single molecules induced by scanning tunneling microscopy manipulation: a route to molecular switching. , 2001, Physical review letters.

[126]  W. Zisman,et al.  Oleophobic monolayers: I. Films adsorbed from solution in non-polar liquids☆ , 1946 .

[127]  J. Ciszek,et al.  Effects of hydration on molecular junction transport , 2006, Nature materials.

[128]  Kurt Stokbro,et al.  Theory of rectification in tour wires: the role of electrode coupling. , 2002, Physical review letters.

[129]  J. Naciri,et al.  Metal-molecule contacts and charge transport across monomolecular layers: measurement and theory. , 2002, Physical review letters.

[130]  Paul D. Franzon,et al.  Nanocell logic gates for molecular computing , 2002 .

[131]  Zhong Wei,et al.  Rectifying diodes from asymmetrically functionalized single-wall carbon nanotubes. , 2006, Journal of the American Chemical Society.

[132]  Mathieu Kemp,et al.  Conductance of Molecular Wires: Influence of Molecule−Electrode Binding , 1999 .

[133]  C D Frisbie,et al.  Fabrication and characterization of metal-molecule-metal junctions by conducting probe atomic force microscopy. , 2001, Journal of the American Chemical Society.

[134]  R. C. Tiberio,et al.  Fabrication of dissimilar metal electrodes with nanometer interelectrode distance for molecular electronic device characterization , 2000 .

[135]  Stoddart,et al.  Electronically configurable molecular-based logic gates , 1999, Science.

[136]  Massimiliano Di Ventra,et al.  Transport in nanoscale conductors from first principles , 2001 .

[137]  Dominique Vuillaume,et al.  Nano-field effect transistor with an organic self-assembled monolayer as gate insulator , 1998 .

[138]  C. Daniel Frisbie,et al.  Distance Dependence of Electron Tunneling through Self-Assembled Monolayers Measured by Conducting Probe Atomic Force Microscopy: Unsaturated versus Saturated Molecular Junctions , 2002 .

[139]  H. B. Weber,et al.  Low-temperature conductance measurements on single molecules , 2003 .

[140]  M. Reed,et al.  Room-Temperature Negative Differential Resistance in Nanoscale Molecular Junctions , 2000 .

[141]  Mark A. Reed,et al.  Mechanism of electron conduction in self-assembled alkanethiol monolayer devices , 2003 .

[142]  T. Lee,et al.  Vibronic coupling in semifluorinated alkanethiol junctions: implications for selection rules in inelastic electron tunneling spectroscopy. , 2007, Nano letters.

[143]  Colin Nuckolls,et al.  Single-molecule devices as scaffolding for multicomponent nanostructure assembly. , 2007, Nano letters.

[144]  Silicon-based Molecular Electronics , 2003, cond-mat/0305695.

[145]  Futoshi Iwata,et al.  Determination of performance on tunnel conduction through molecular wire using a conductive atomic force microscope , 2001 .

[146]  N. J. Tao,et al.  Electron transport in molecular junctions , 2006, Nature nanotechnology.

[147]  D. Strukov,et al.  CMOL: Devices, Circuits, and Architectures , 2006 .

[148]  David L. Allara,et al.  An Intrinsic Relationship between Molecular Structure in Self-Assembled n-Alkylsiloxane Monolayers and Deposition Temperature , 1994 .

[149]  John A Rogers,et al.  Interfacial chemistries for nanoscale transfer printing. , 2002, Journal of the American Chemical Society.

[150]  C. H. Patterson,et al.  Molecularly inherent voltage-controlled conductance switching , 2005, Nature materials.

[151]  James Hone,et al.  Covalently Bridging Gaps in Single-Walled Carbon Nanotubes with Conducting Molecules , 2006, Science.

[152]  A. Kahn,et al.  How do electronic carriers cross Si-bound alkyl monolayers? , 2005, Physical review letters.

[153]  T. D. Dunbar,et al.  Electron Transfer through Organic Molecules , 1999 .

[154]  A. Ulman,et al.  Ultrathin organic films: From Langmuir-Blodgett to self assembly , 1991 .

[155]  Zhifeng Huang,et al.  Effect of anchoring groups on single-molecule conductance: comparative study of thiol-, amine-, and carboxylic-acid-terminated molecules. , 2006, Journal of the American Chemical Society.

[156]  Efthimios Kaxiras,et al.  Negative differential resistance in transport through organic molecules on silicon. , 2007, Physical review letters.

[157]  David Cahen,et al.  The Importance of Chemical Bonding to the Contact for Tunneling through Alkyl Chains , 2002 .

[158]  Yuyuan Tian,et al.  Conductance of single alkanedithiols: conduction mechanism and effect of molecule-electrode contacts. , 2006, Journal of the American Chemical Society.

[159]  J. Charlier,et al.  Evidence of the key role of metal-molecule bonding in metal-molecule-metal transport experiments. , 2003, Physical review letters.

[160]  Dominique Vuillaume,et al.  A tunnel current in self-assembled monolayers of 3-mercaptopropyltrimethoxysilane. , 2005, Small.

[161]  J F Stoddart,et al.  Switching devices based on interlocked molecules. , 2001, Accounts of chemical research.

[162]  David Cahen,et al.  Comparison of Electronic Transport Measurements on Organic Molecules , 2003 .

[163]  J. Sagiv,et al.  Electrical conduction through adsorbed monolayers , 1978 .