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November 24, 2015 20:04
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{ | |
"links": [ | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
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}, | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
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{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
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{ | |
"abs_title": "Annealing and ionic liquid gating on suspended molybdenum disulfide devices", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
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"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
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"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
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"abs_title": "Optical detection of adsorbed CO$_{2}$ and other gases on ferroelectric surfaces using second harmonic generation (SHG)", | |
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"abs_title": "Cyclotron Resonance at the Dirac Point", | |
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"abs_title": "Ballistic Phonon Thermal Transport and Thermal Properties of Carbon Nanotubes", | |
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"abs_title": "Doping effect of electrode on Graphene", | |
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{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
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"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
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"abs_title": "Optical detection of adsorbed CO$_{2}$ and other gases on ferroelectric surfaces using second harmonic generation (SHG)", | |
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{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
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"abs_title": "Cyclotron Resonance at the Dirac Point", | |
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"abs_title": "Landau Level Collapse in Gated Graphene Structures", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
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{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
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{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
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{ | |
"abs_title": "Spatial Variation and Temporal Fluctuation of Domains at Equilibrium in a PbTiO3\/SrTiO3 Superlattice", | |
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"abs_title": "Nonlinear dynamics in tunable graphene nanoelectromechanical systems", | |
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"abs_title": "Transport Spectroscopy of Symmetry-Broken Insulating States in Bilayer Graphene", | |
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"abs_title": "Scanning Probe Microscopy studies of 2D and quasi-2D graphene crystal structures.", | |
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"abs_title": "Nitrogen incorporation into epitaxial graphene formed on SiC", | |
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"abs_title": "Room Temperature Quantum Hall Effect in Graphene", | |
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{ | |
"abs_title": "Quantum transport in high-quality Bilayer Graphene pnp Junctions", | |
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{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
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{ | |
"abs_title": "Dual Gating of Suspended Graphene Devices via Contactless Gates", | |
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{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
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{ | |
"abs_title": "Transport and optical measurements on Graphene - hBN heterostructures", | |
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{ | |
"abs_title": "Raman studies of ultra-clean graphene on hexagonal boron nitride with controlled doping", | |
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{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
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}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
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{ | |
"abs_title": "Spatial Variation and Temporal Fluctuation of Domains at Equilibrium in a PbTiO3\/SrTiO3 Superlattice", | |
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{ | |
"abs_title": "Landau Level Collapse in Gated Graphene Structures", | |
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}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
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{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
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}, | |
{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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}, | |
{ | |
"abs_title": "Visualizing graphene grown by chemical vapor deposition on metal substrates at the atomic scale", | |
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}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
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"source": 39 | |
}, | |
{ | |
"abs_title": "Experimental Measurement of Thermal Expansion Coefficient of few layer graphene", | |
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{ | |
"abs_title": "Electric Field Effect Modulation of Charge Transport in Atomically Thin Bi$_{2}$Sr$_{2}$CaCu$_{2}$O$_{8+\\delta}$", | |
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{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
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{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
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}, | |
{ | |
"abs_title": "Electric Transport in MoSe molecular Nanowires", | |
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{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
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{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
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}, | |
{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
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{ | |
"abs_title": "Fabrication and transport measurement of suspended graphene devices.", | |
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{ | |
"abs_title": "Fabrication and transport measurement of suspended graphene devices.", | |
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{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
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{ | |
"abs_title": "Landau Level Lifetimes and Residual Disorder in Single Layer Graphene on Boron-Nitride Substrates", | |
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{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
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{ | |
"abs_title": "Fabrication of gated suspended graphene devices", | |
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{ | |
"abs_title": "Current-Voltage Characteristics of Electrolyte-Gated Graphene Field-Effect Transistors", | |
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{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
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}, | |
{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
"target": 376, | |
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}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 53 | |
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{ | |
"abs_title": "Quantum Oscillations in Microwave Conductance of Graphene", | |
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{ | |
"abs_title": "Terahertz Detection as a Probe of Luttinger-Liquid Behavior in an Individual Single-Walled Carbon Nanotube", | |
"target": 266, | |
"source": 55 | |
}, | |
{ | |
"abs_title": "Radio Frequency Electrical Transduction of Graphene Mechanical Resonators", | |
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"source": 56 | |
}, | |
{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
"target": 266, | |
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{ | |
"abs_title": "Individual Single-Walled Carbon Nanotube Device Fabrication for Terahertz Detection", | |
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{ | |
"abs_title": "Electron-phonon coupling in bilayer and single-layer graphene at sub-Kelvin temperatures", | |
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}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
"target": 266, | |
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}, | |
{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
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}, | |
{ | |
"abs_title": "Visualizing graphene grown by chemical vapor deposition on metal substrates at the atomic scale", | |
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{ | |
"abs_title": "Coulomb drag in graphene quantum Hall bilayer systems", | |
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"source": 62 | |
}, | |
{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
"target": 358, | |
"source": 63 | |
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{ | |
"abs_title": "Energy loss of the electron system in individual single-walled carbon nanotubes", | |
"target": 266, | |
"source": 64 | |
}, | |
{ | |
"abs_title": "Ferroelectric Striped Nanodomains in PbTiO$_{3}$\/SrTiO$_{3}$ Superlattice Islands", | |
"target": 419, | |
"source": 65 | |
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{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
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{ | |
"abs_title": "Thermal Conductivity of Encased Graphene", | |
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{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
"target": 266, | |
"source": 68 | |
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{ | |
"abs_title": "Observation of the Signatures of Glassy Vortex Dynamics in 2$H$-NbSe$_{2 }$", | |
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"source": 69 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 266, | |
"source": 70 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 71 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 71 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 266, | |
"source": 71 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 213, | |
"source": 71 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 72 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 72 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 266, | |
"source": 72 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 73 | |
}, | |
{ | |
"abs_title": "Graphitic carbon molecular beam epitaxy on dielectric substrates", | |
"target": 266, | |
"source": 74 | |
}, | |
{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
"target": 358, | |
"source": 75 | |
}, | |
{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
"target": 376, | |
"source": 75 | |
}, | |
{ | |
"abs_title": "Measurement of intrinsic resistivity of individual single walled carbon nanotubes with known-chirality", | |
"target": 266, | |
"source": 76 | |
}, | |
{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
"target": 376, | |
"source": 77 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
"target": 213, | |
"source": 77 | |
}, | |
{ | |
"abs_title": "Transport Spectroscopy of Symmetry-Broken Insulating States in Bilayer Graphene", | |
"target": 376, | |
"source": 78 | |
}, | |
{ | |
"abs_title": "Optical detection of adsorbed CO$_{2}$ and other gases on ferroelectric surfaces using second harmonic generation (SHG)", | |
"target": 446, | |
"source": 79 | |
}, | |
{ | |
"abs_title": "Atomic-Scale Topographic and Electronic Structure of Graphene Films on Ultraflat Insulating Materials", | |
"target": 266, | |
"source": 80 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 81 | |
}, | |
{ | |
"abs_title": "Radio Frequency Electrical Transduction of Graphene Mechanical Resonators", | |
"target": 266, | |
"source": 82 | |
}, | |
{ | |
"abs_title": "Electrochemical Intercalation of Few-Layer Graphenes: Method and Characterization", | |
"target": 266, | |
"source": 83 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 84 | |
}, | |
{ | |
"abs_title": "Bragg Spectroscopy of Excitations of a Quantum Bose Gas in a Lattice", | |
"target": 116, | |
"source": 85 | |
}, | |
{ | |
"abs_title": "Annealing and ionic liquid gating on suspended molybdenum disulfide devices", | |
"target": 358, | |
"source": 86 | |
}, | |
{ | |
"abs_title": "Experimental Measurement of Thermal Expansion Coefficient of few layer graphene", | |
"target": 376, | |
"source": 86 | |
}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
"target": 213, | |
"source": 86 | |
}, | |
{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
"target": 358, | |
"source": 87 | |
}, | |
{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
"target": 376, | |
"source": 87 | |
}, | |
{ | |
"abs_title": "Channel Length Scaling Effects in Graphene Field-Effect Transistor", | |
"target": 266, | |
"source": 88 | |
}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
"target": 266, | |
"source": 89 | |
}, | |
{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
"target": 358, | |
"source": 90 | |
}, | |
{ | |
"abs_title": "Terahertz Detection as a Probe of Luttinger-Liquid Behavior in an Individual Single-Walled Carbon Nanotube", | |
"target": 266, | |
"source": 91 | |
}, | |
{ | |
"abs_title": "Hofstadter's Butterfly in a Lithographically Defined Super-Lattice", | |
"target": 266, | |
"source": 92 | |
}, | |
{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
"target": 358, | |
"source": 93 | |
}, | |
{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
"target": 376, | |
"source": 93 | |
}, | |
{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
"target": 266, | |
"source": 94 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 329, | |
"source": 95 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 446, | |
"source": 95 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 96 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 96 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 266, | |
"source": 96 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 213, | |
"source": 96 | |
}, | |
{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
"target": 266, | |
"source": 97 | |
}, | |
{ | |
"abs_title": "Tearing of Graphene", | |
"target": 458, | |
"source": 98 | |
}, | |
{ | |
"abs_title": "Rippling of Graphene", | |
"target": 145, | |
"source": 98 | |
}, | |
{ | |
"abs_title": "Optical detection of adsorbed CO$_{2}$ and other gases on ferroelectric surfaces using second harmonic generation (SHG)", | |
"target": 446, | |
"source": 99 | |
}, | |
{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
"target": 266, | |
"source": 100 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 266, | |
"source": 101 | |
}, | |
{ | |
"abs_title": "Performance of graphene nanoelectromechanical resonators", | |
"target": 266, | |
"source": 102 | |
}, | |
{ | |
"abs_title": "Ballistic Phonon Thermal Transport and Thermal Properties of Carbon Nanotubes", | |
"target": 358, | |
"source": 103 | |
}, | |
{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
"target": 358, | |
"source": 104 | |
}, | |
{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
"target": 376, | |
"source": 104 | |
}, | |
{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
"target": 266, | |
"source": 105 | |
}, | |
{ | |
"abs_title": "Scanned Probe Measurements of Graphene on Ferroelectrics", | |
"target": 446, | |
"source": 106 | |
}, | |
{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
"target": 266, | |
"source": 107 | |
}, | |
{ | |
"abs_title": "Observation of the fractional quantum Hall effect in graphene", | |
"target": 266, | |
"source": 108 | |
}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
"target": 266, | |
"source": 109 | |
}, | |
{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
"target": 266, | |
"source": 110 | |
}, | |
{ | |
"abs_title": "Terahertz Bolometric Detection in an Individual Single-Walled Carbon Nanotube", | |
"target": 266, | |
"source": 111 | |
}, | |
{ | |
"abs_title": "Room Temperature Quantum Hall Effect in Graphene", | |
"target": 266, | |
"source": 112 | |
}, | |
{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
"target": 266, | |
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{ | |
"abs_title": "High mobility ambipolar MoS$_{2}$ field-effect transistors", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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}, | |
{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "Extrinsic and Intrinsic Charge Trapping at the Graphene\/Ferroelectric Interface", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Ferroelectric Superlattices as a route to clean Graphene-ferroelectric Interfaces", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Signatures of one-dimensional localization of magnetically quantized carriers in graphite: power-law hopping mechanism.", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Bragg Spectroscopy of Excitations of a Quantum Bose Gas in a Lattice", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Magnetically induced low density phases near the Dirac point", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Observation of the Signatures of Glassy Vortex Dynamics in 2$H$-NbSe$_{2 }$", | |
"target": 456, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electron-phonon coupling in bilayer and single-layer graphene at sub-Kelvin temperatures", | |
"target": 485, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Extrinsic and Intrinsic Charge Trapping at the Graphene\/Ferroelectric Interface", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Magnetically induced low density phases near the Dirac point", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Signatures of one-dimensional localization of magnetically quantized carriers in graphite: power-law hopping mechanism.", | |
"target": 176, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Heat Confinement in Graphene Devices Using Superconducting Contacts", | |
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"source": 116 | |
}, | |
{ | |
"abs_title": "Extrinsic and Intrinsic Charge Trapping at the Graphene\/Ferroelectric Interface", | |
"target": 239, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electron-phonon coupling in bilayer and single-layer graphene at sub-Kelvin temperatures", | |
"target": 398, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Sub-harmonic gap structure and Magneto-transport in suspended graphene --Superconductor ballistic junctions", | |
"target": 240, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electrical and Magnetic Properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 365, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Bragg Spectroscopy of Excitations of a Quantum Bose Gas in a Lattice", | |
"target": 440, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Observation of the Signatures of Glassy Vortex Dynamics in 2$H$-NbSe$_{2 }$", | |
"target": 303, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electronic transport properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 210, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Bragg Spectroscopy of Excitations of a Quantum Bose Gas in a Lattice", | |
"target": 437, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electrical and Magnetic Properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 407, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electron-phonon interactions in bilayer graphene", | |
"target": 373, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Observation of the Signatures of Glassy Vortex Dynamics in 2$H$-NbSe$_{2 }$", | |
"target": 505, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Nonlinear dynamics in tunable graphene nanoelectromechanical systems", | |
"target": 218, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Signatures of one-dimensional localization of magnetically quantized carriers in graphite: power-law hopping mechanism.", | |
"target": 187, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Graphene-Superconductor hybrid device as Bolometer", | |
"target": 375, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electrical and Magnetic Properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 477, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electrical and Magnetic Properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 416, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Electrical and Magnetic Properties of PbTiO$_{3}$\/SrRuO$_{3}$ superlattices", | |
"target": 160, | |
"source": 116 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 266, | |
"source": 117 | |
}, | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
"target": 358, | |
"source": 118 | |
}, | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
"target": 376, | |
"source": 118 | |
}, | |
{ | |
"abs_title": "Quantum dot in semiconducting single walled carbon nanotube on thin hexagonal boron nitride", | |
"target": 266, | |
"source": 119 | |
}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
"target": 266, | |
"source": 120 | |
}, | |
{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
"target": 266, | |
"source": 121 | |
}, | |
{ | |
"abs_title": "Landau Level Lifetimes and Residual Disorder in Single Layer Graphene on Boron-Nitride Substrates", | |
"target": 266, | |
"source": 122 | |
}, | |
{ | |
"abs_title": "Fabrication of gated suspended graphene devices", | |
"target": 266, | |
"source": 123 | |
}, | |
{ | |
"abs_title": "Terahertz Detection as a Probe of Luttinger-Liquid Behavior in an Individual Single-Walled Carbon Nanotube", | |
"target": 266, | |
"source": 124 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 263, | |
"source": 125 | |
}, | |
{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
"target": 358, | |
"source": 126 | |
}, | |
{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
"target": 376, | |
"source": 126 | |
}, | |
{ | |
"abs_title": "Magneto-transport of filling controlled Mott insulator, Sr$_2$IrO$_4$", | |
"target": 266, | |
"source": 127 | |
}, | |
{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
"target": 266, | |
"source": 128 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 129 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 266, | |
"source": 130 | |
}, | |
{ | |
"abs_title": "Thermoelectric and Magnetothermoelectric Transport Measurements of Graphene", | |
"target": 266, | |
"source": 131 | |
}, | |
{ | |
"abs_title": "Exfoliated Thin Crystals: A New Platform For Exploring Cuprate Physics", | |
"target": 266, | |
"source": 132 | |
}, | |
{ | |
"abs_title": "Ballistic Phonon Thermal Transport and Thermal Properties of Carbon Nanotubes", | |
"target": 358, | |
"source": 133 | |
}, | |
{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
"target": 358, | |
"source": 134 | |
}, | |
{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
"target": 376, | |
"source": 134 | |
}, | |
{ | |
"abs_title": "Interaction of magneto-excitons with phonons in graphene and graphite", | |
"target": 266, | |
"source": 135 | |
}, | |
{ | |
"abs_title": "Ferroelectric Striped Nanodomains in PbTiO$_{3}$\/SrTiO$_{3}$ Superlattice Islands", | |
"target": 419, | |
"source": 136 | |
}, | |
{ | |
"abs_title": "Electronic transport in graphene\/CdSe nanoparticle monolayer\/graphene tunneling devices", | |
"target": 266, | |
"source": 138 | |
}, | |
{ | |
"abs_title": "Bolometric Response of a Single-Wall Carbon Nanotube", | |
"target": 266, | |
"source": 139 | |
}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 140 | |
}, | |
{ | |
"abs_title": "Exfoliated Thin Crystals: A New Platform For Exploring Cuprate Physics", | |
"target": 266, | |
"source": 141 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 358, | |
"source": 142 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 376, | |
"source": 142 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 263, | |
"source": 142 | |
}, | |
{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
"target": 266, | |
"source": 143 | |
}, | |
{ | |
"abs_title": "High resolution thermal properties study of Joule self-heated graphene nanoribbon", | |
"target": 266, | |
"source": 144 | |
}, | |
{ | |
"abs_title": "Measurement of energy gaps of integer and fractional quantum Hall states in suspended bilayer graphene devices", | |
"target": 358, | |
"source": 146 | |
}, | |
{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
"target": 266, | |
"source": 147 | |
}, | |
{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
"target": 358, | |
"source": 148 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
"target": 376, | |
"source": 148 | |
}, | |
{ | |
"abs_title": "Quantum transport in high-quality Bilayer Graphene pnp Junctions", | |
"target": 263, | |
"source": 148 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
"target": 213, | |
"source": 148 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 149 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 149 | |
}, | |
{ | |
"abs_title": "Magnetoconductance Oscillations in High-Mobility Suspended Bilayer and Trilayer Graphene", | |
"target": 263, | |
"source": 149 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 213, | |
"source": 149 | |
}, | |
{ | |
"abs_title": "Thermoelectric and Magnetothermoelectric Transport Measurements of Graphene", | |
"target": 266, | |
"source": 150 | |
}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 151 | |
}, | |
{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
"target": 266, | |
"source": 152 | |
}, | |
{ | |
"abs_title": "Observation of the fractional quantum Hall effect in graphene", | |
"target": 266, | |
"source": 153 | |
}, | |
{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
"target": 266, | |
"source": 154 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 155 | |
}, | |
{ | |
"abs_title": "Measurement of the 1\/3 Fractional Quantum Hall Effect Energy Gap in Multi-terminal Suspended Graphene Devices", | |
"target": 266, | |
"source": 156 | |
}, | |
{ | |
"abs_title": "Local Spectroscopy of the Electrically Tunable Band Gap in Trilayer Graphene", | |
"target": 358, | |
"source": 157 | |
}, | |
{ | |
"abs_title": "Mapping the Dirac point in gated bilayer graphene", | |
"target": 376, | |
"source": 157 | |
}, | |
{ | |
"abs_title": "Performance of graphene nanoelectromechanical resonators", | |
"target": 266, | |
"source": 158 | |
}, | |
{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
"target": 376, | |
"source": 159 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 329, | |
"source": 161 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 446, | |
"source": 161 | |
}, | |
{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
"target": 376, | |
"source": 162 | |
}, | |
{ | |
"abs_title": "Ferroelectric Striped Nanodomains in PbTiO$_{3}$\/SrTiO$_{3}$ Superlattice Islands", | |
"target": 419, | |
"source": 163 | |
}, | |
{ | |
"abs_title": "Electric Transport in MoSe molecular Nanowires", | |
"target": 266, | |
"source": 164 | |
}, | |
{ | |
"abs_title": "Exfoliated Thin Crystals: A New Platform For Exploring Cuprate Physics", | |
"target": 266, | |
"source": 165 | |
}, | |
{ | |
"abs_title": "Landau Level Lifetimes and Residual Disorder in Single Layer Graphene on Boron-Nitride Substrates", | |
"target": 266, | |
"source": 166 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 167 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 168 | |
}, | |
{ | |
"abs_title": "Control Over the Adhesion and Strain on Graphene Using Arrays of Mesoscale Pyramids", | |
"target": 329, | |
"source": 169 | |
}, | |
{ | |
"abs_title": "Bolometric Response of a Single-Wall Carbon Nanotube", | |
"target": 266, | |
"source": 170 | |
}, | |
{ | |
"abs_title": "Graphitic carbon molecular beam epitaxy on dielectric substrates", | |
"target": 266, | |
"source": 171 | |
}, | |
{ | |
"abs_title": "Cyclotron Resonance at the Dirac Point", | |
"target": 266, | |
"source": 172 | |
}, | |
{ | |
"abs_title": "Symmetry Breaking in Hofstadter's Butterfly in graphene", | |
"target": 266, | |
"source": 173 | |
}, | |
{ | |
"abs_title": "Electronic transport in graphene\/CdSe nanoparticle monolayer\/graphene tunneling devices", | |
"target": 266, | |
"source": 174 | |
}, | |
{ | |
"abs_title": "Electron-electron Interaction and Thermoelectricity in Graphene", | |
"target": 266, | |
"source": 175 | |
}, | |
{ | |
"abs_title": "Nitrogen incorporation into epitaxial graphene formed on SiC", | |
"target": 263, | |
"source": 177 | |
}, | |
{ | |
"abs_title": "Control Over the Adhesion and Strain on Graphene Using Arrays of Mesoscale Pyramids", | |
"target": 329, | |
"source": 178 | |
}, | |
{ | |
"abs_title": "Magneto-transport of filling controlled Mott insulator, Sr$_2$IrO$_4$", | |
"target": 266, | |
"source": 179 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 180 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 180 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 213, | |
"source": 180 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 263, | |
"source": 181 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 182 | |
}, | |
{ | |
"abs_title": "Functionalization of exfoliated graphene by grafting aryl groups", | |
"target": 358, | |
"source": 183 | |
}, | |
{ | |
"abs_title": "Functionalization of exfoliated graphene by grafting aryl groups", | |
"target": 376, | |
"source": 183 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 184 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 184 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 213, | |
"source": 184 | |
}, | |
{ | |
"abs_title": "Self-sustained graphene mechanical oscillators", | |
"target": 266, | |
"source": 185 | |
}, | |
{ | |
"abs_title": "Understanding Metal-Insulator transitions in ultra-thin films of LaNiO$_{3}$", | |
"target": 266, | |
"source": 186 | |
}, | |
{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
"target": 376, | |
"source": 188 | |
}, | |
{ | |
"abs_title": "Quantum Oscillations in Microwave Conductance of Graphene", | |
"target": 266, | |
"source": 189 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 263, | |
"source": 190 | |
}, | |
{ | |
"abs_title": "Self-sustained graphene mechanical oscillators", | |
"target": 266, | |
"source": 191 | |
}, | |
{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
"target": 358, | |
"source": 192 | |
}, | |
{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
"target": 376, | |
"source": 192 | |
}, | |
{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
"target": 358, | |
"source": 193 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 194 | |
}, | |
{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
"target": 266, | |
"source": 196 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 263, | |
"source": 197 | |
}, | |
{ | |
"abs_title": "Terahertz Bolometric Detection in an Individual Single-Walled Carbon Nanotube", | |
"target": 266, | |
"source": 198 | |
}, | |
{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
"target": 266, | |
"source": 199 | |
}, | |
{ | |
"abs_title": "Van der Waals epitaxy of organic crystal films on hexagonal boron nitride layers for high-quality organic electronics", | |
"target": 266, | |
"source": 200 | |
}, | |
{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
"target": 266, | |
"source": 201 | |
}, | |
{ | |
"abs_title": "Local Spectroscopy of the Electrically Tunable Band Gap in Trilayer Graphene", | |
"target": 358, | |
"source": 202 | |
}, | |
{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
"target": 358, | |
"source": 203 | |
}, | |
{ | |
"abs_title": "Growth of atomically smooth MgO films on graphene by molecular beam epitaxy.", | |
"target": 376, | |
"source": 203 | |
}, | |
{ | |
"abs_title": "Measurement of energy gaps of integer and fractional quantum Hall states in suspended bilayer graphene devices", | |
"target": 358, | |
"source": 204 | |
}, | |
{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
"target": 376, | |
"source": 204 | |
}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
"target": 213, | |
"source": 204 | |
}, | |
{ | |
"abs_title": "Quantumn Hall Effect in single-, bi- and tri-layer graphene", | |
"target": 358, | |
"source": 205 | |
}, | |
{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
"target": 376, | |
"source": 205 | |
}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 206 | |
}, | |
{ | |
"abs_title": "Annealing and ionic liquid gating on suspended molybdenum disulfide devices", | |
"target": 358, | |
"source": 207 | |
}, | |
{ | |
"abs_title": "Understanding Metal-Insulator transitions in ultra-thin films of LaNiO$_{3}$", | |
"target": 266, | |
"source": 208 | |
}, | |
{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
"target": 266, | |
"source": 209 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 266, | |
"source": 211 | |
}, | |
{ | |
"abs_title": "Measurement of the 1\/3 Fractional Quantum Hall Effect Energy Gap in Multi-terminal Suspended Graphene Devices", | |
"target": 266, | |
"source": 212 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 352, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
"target": 279, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Gate-tunable nanoplasmonic effects in single- and bi-layer graphene", | |
"target": 286, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Graphene based switch", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 356, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
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}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
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}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Fano Resonance in Single-Walled Cabron Nanotube Devices", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Gate-tunable nanoplasmonic effects in single- and bi-layer graphene", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 376, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
"target": 404, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Current Annealing~of Suspended Graphene Atomic Membranes", | |
"target": 506, | |
"source": 213 | |
}, | |
{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Graphene based switch", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Dual-dated suspended double-layer graphene devices", | |
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"source": 213 | |
}, | |
{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
"target": 266, | |
"source": 214 | |
}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 215 | |
}, | |
{ | |
"abs_title": "Neutral currents probed by non-local transport in graphene with 5 \\textit{d} metal adatoms", | |
"target": 376, | |
"source": 216 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
"target": 266, | |
"source": 217 | |
}, | |
{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
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"source": 219 | |
}, | |
{ | |
"abs_title": "Electronic transport in graphene\/CdSe nanoparticle monolayer\/graphene tunneling devices", | |
"target": 266, | |
"source": 220 | |
}, | |
{ | |
"abs_title": "Patterning, Characterization and Chemical Sensing Applications of Graphene Nanoribbon Arrays Down to 5 nm Using Helium Ion Beam Lithography", | |
"target": 263, | |
"source": 221 | |
}, | |
{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
"target": 266, | |
"source": 222 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
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"source": 223 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
"target": 266, | |
"source": 224 | |
}, | |
{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
"target": 358, | |
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}, | |
{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
"target": 376, | |
"source": 225 | |
}, | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
"target": 358, | |
"source": 226 | |
}, | |
{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
"target": 376, | |
"source": 226 | |
}, | |
{ | |
"abs_title": "Electrical transport between single-crystal domains in graphene: bigger is not always better", | |
"target": 266, | |
"source": 227 | |
}, | |
{ | |
"abs_title": "Diameter Dependence of the Transport Properties of Antimony Telluride Nanowires", | |
"target": 266, | |
"source": 228 | |
}, | |
{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
"target": 266, | |
"source": 229 | |
}, | |
{ | |
"abs_title": "Cyclotron resonance in bilayer graphene", | |
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"source": 230 | |
}, | |
{ | |
"abs_title": "Electronic Transport in Hexagonal Boron Nitride Encapsulated Graphene Nanoribbon", | |
"target": 266, | |
"source": 231 | |
}, | |
{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
"target": 266, | |
"source": 232 | |
}, | |
{ | |
"abs_title": "Inversion symmetry breaking induced phonon-phonon anti-crossing in bilayer graphene", | |
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"source": 233 | |
}, | |
{ | |
"abs_title": "Measurement of energy gaps of integer and fractional quantum Hall states in suspended bilayer graphene devices", | |
"target": 358, | |
"source": 234 | |
}, | |
{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
"target": 376, | |
"source": 234 | |
}, | |
{ | |
"abs_title": "Magnetoconductance Oscillations in High-Mobility Suspended Bilayer and Trilayer Graphene", | |
"target": 263, | |
"source": 234 | |
}, | |
{ | |
"abs_title": "Enhanced OFF state resistance in reconfigurable graphene p-n junction", | |
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"source": 235 | |
}, | |
{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
"target": 266, | |
"source": 236 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 266, | |
"source": 237 | |
}, | |
{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
"target": 266, | |
"source": 238 | |
}, | |
{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
"target": 266, | |
"source": 241 | |
}, | |
{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
"target": 376, | |
"source": 242 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 266, | |
"source": 243 | |
}, | |
{ | |
"abs_title": "Zero-Dimensional Electrical Contact to a One-Dimensional Material", | |
"target": 358, | |
"source": 244 | |
}, | |
{ | |
"abs_title": "Transport in Suspended graphene under strain", | |
"target": 376, | |
"source": 244 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
"target": 266, | |
"source": 245 | |
}, | |
{ | |
"abs_title": "Inversion symmetry breaking induced phonon-phonon anti-crossing in bilayer graphene", | |
"target": 266, | |
"source": 246 | |
}, | |
{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
"target": 266, | |
"source": 247 | |
}, | |
{ | |
"abs_title": "Coulomb drag in graphene quantum Hall bilayer systems", | |
"target": 266, | |
"source": 248 | |
}, | |
{ | |
"abs_title": "Accessing high energy sub-bands in bilayer graphene - a transport study", | |
"target": 266, | |
"source": 249 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 250 | |
}, | |
{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
"target": 376, | |
"source": 251 | |
}, | |
{ | |
"abs_title": "Electrical Transport in Graphene-Carbon~nanotube Junctions", | |
"target": 358, | |
"source": 252 | |
}, | |
{ | |
"abs_title": "Broken Symmetry Quantum Hall states in Dual Gated ABA Trilayer Graphene", | |
"target": 376, | |
"source": 252 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 263, | |
"source": 252 | |
}, | |
{ | |
"abs_title": "Spin injection and transport in graphene layers", | |
"target": 376, | |
"source": 253 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 329, | |
"source": 254 | |
}, | |
{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
"target": 446, | |
"source": 254 | |
}, | |
{ | |
"abs_title": "Interaction of magneto-excitons with phonons in graphene and graphite", | |
"target": 266, | |
"source": 255 | |
}, | |
{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
"target": 266, | |
"source": 256 | |
}, | |
{ | |
"abs_title": "Individual Single-Walled Carbon Nanotube Device Fabrication for Terahertz Detection", | |
"target": 266, | |
"source": 257 | |
}, | |
{ | |
"abs_title": "Quantum dot in semiconducting single walled carbon nanotube on thin hexagonal boron nitride", | |
"target": 266, | |
"source": 258 | |
}, | |
{ | |
"abs_title": "Ferroelectric Striped Nanodomains in PbTiO$_{3}$\/SrTiO$_{3}$ Superlattice Islands", | |
"target": 419, | |
"source": 259 | |
}, | |
{ | |
"abs_title": "Optical detection of adsorbed CO$_{2}$ and other gases on ferroelectric surfaces using second harmonic generation (SHG)", | |
"target": 446, | |
"source": 260 | |
}, | |
{ | |
"abs_title": "Van der Waals epitaxy of organic crystal films on hexagonal boron nitride layers for high-quality organic electronics", | |
"target": 266, | |
"source": 261 | |
}, | |
{ | |
"abs_title": "Radio Frequency Electrical Transduction of Graphene Mechanical Resonators", | |
"target": 266, | |
"source": 262 | |
}, | |
{ | |
"abs_title": "Graphene based switch", | |
"target": 279, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Dual Gating of Suspended Graphene Devices via Contactless Gates", | |
"target": 441, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Nano-meter structured three-phase contact line and its surface-guided alignment effect", | |
"target": 353, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 358, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Magnetoconductance Oscillations in High-Mobility Suspended Bilayer and Trilayer Graphene", | |
"target": 488, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Magnetoconductance Oscillations in High-Mobility Suspended Bilayer and Trilayer Graphene", | |
"target": 462, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Fabrication of High Quality Suspended Graphene devices", | |
"target": 278, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Dual Gating of Suspended Graphene Devices via Contactless Gates", | |
"target": 467, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Fano Resonance in Single-Walled Cabron Nanotube Devices", | |
"target": 433, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 376, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 392, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Nitrogen incorporation into epitaxial graphene formed on SiC", | |
"target": 273, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 506, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Semiconducting Graphene Ribbons Grown on Nitrogen-Seeded SiC", | |
"target": 475, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Electric and Magnetic Field Induced Insulating States in High Quality Bilayer Graphene pnp Junctions", | |
"target": 346, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Graphene based switch", | |
"target": 380, | |
"source": 263 | |
}, | |
{ | |
"abs_title": "Graphitic carbon molecular beam epitaxy on dielectric substrates", | |
"target": 266, | |
"source": 264 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 358, | |
"source": 265 | |
}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
"source": 265 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 266, | |
"source": 265 | |
}, | |
{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
"target": 267, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Novel Graphene Devices by Precision Transfer Method", | |
"target": 268, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 274, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Van der Waals epitaxy of organic crystal films on hexagonal boron nitride layers for high-quality organic electronics", | |
"target": 335, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
"target": 277, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Scaling of Resistance with Channel Length in Single Walled Carbon Nanotubes.", | |
"target": 280, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Infrared absorption in graphene", | |
"target": 282, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Magneto-transport of filling controlled Mott insulator, Sr$_2$IrO$_4$", | |
"target": 508, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Electronic transport across a Carbon nanotube Heterojunction: Experimental observations of high temperature Coulomb Charging and level spacing.", | |
"target": 285, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
"target": 287, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
"target": 291, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
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"source": 266 | |
}, | |
{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
"target": 294, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 395, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Coulomb drag in graphene quantum Hall bilayer systems", | |
"target": 296, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 299, | |
"source": 266 | |
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{ | |
"abs_title": "High resolution thermal properties study of Joule self-heated graphene nanoribbon", | |
"target": 390, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
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"source": 266 | |
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{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
"target": 304, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 306, | |
"source": 266 | |
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{ | |
"abs_title": "Fabrication and characterization of graphene\/MoS$_{2}$ heterojunctions", | |
"target": 307, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Electronic Transport in Hexagonal Boron Nitride Encapsulated Graphene Nanoribbon", | |
"target": 308, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Room Temperature Quantum Hall Effect in Graphene", | |
"target": 310, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 311, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Graphene\/MoS$_{2}$ Schottky diodes and their integration for metal base transistors", | |
"target": 309, | |
"source": 266 | |
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{ | |
"abs_title": "Individual Single-Walled Carbon Nanotube Device Fabrication for Terahertz Detection", | |
"target": 378, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
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"source": 266 | |
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{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
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"source": 266 | |
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{ | |
"abs_title": "Spectromicroscopy study of surface morphology and quasiparticle dynamics in suspended graphene", | |
"target": 361, | |
"source": 266 | |
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{ | |
"abs_title": "Performance of graphene nanoelectromechanical resonators", | |
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"source": 266 | |
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{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
"target": 300, | |
"source": 266 | |
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{ | |
"abs_title": "Beyond graphene: atomic scale structure of quasi-2D van der Waals materials", | |
"target": 283, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
"target": 320, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
"target": 321, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
"target": 384, | |
"source": 266 | |
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{ | |
"abs_title": "Measurement of intrinsic resistivity of individual single walled carbon nanotubes with known-chirality", | |
"target": 323, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 324, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Interaction of magneto-excitons with phonons in graphene and graphite", | |
"target": 325, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Novel Graphene Devices by Precision Transfer Method", | |
"target": 410, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
"target": 331, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Scaling of Resistance with Channel Length in Single Walled Carbon Nanotubes.", | |
"target": 332, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Observation of graphene bubbles and effective mass transport under graphene films", | |
"target": 333, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 334, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
"target": 272, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 336, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Electronic Transport in Hexagonal Boron Nitride Encapsulated Graphene Nanoribbon", | |
"target": 484, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Terahertz Detection as a Probe of Luttinger-Liquid Behavior in an Individual Single-Walled Carbon Nanotube", | |
"target": 338, | |
"source": 266 | |
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{ | |
"abs_title": "Beyond graphene: atomic scale structure of quasi-2D van der Waals materials", | |
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"source": 266 | |
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{ | |
"abs_title": "Characterization of strain in CVD graphene on copper substrates", | |
"target": 341, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
"target": 344, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Individual Single-Walled Carbon Nanotube Device Fabrication for Terahertz Detection", | |
"target": 480, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
"target": 352, | |
"source": 266 | |
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{ | |
"abs_title": "Enhanced OFF state resistance in reconfigurable graphene p-n junction", | |
"target": 348, | |
"source": 266 | |
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{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
"target": 349, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Near-field study in graphene\/hBN heterostructures", | |
"target": 350, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Spin and Valley Splitting of Two-Dimensional Electrons in Graphene in the High Magnetic Field Limit", | |
"target": 354, | |
"source": 266 | |
}, | |
{ | |
"abs_title": "Exfoliated Thin Crystals: A New Platform For Exploring Cuprate Physics", | |
"target": 495, | |
"source": 266 | |
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{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
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{ | |
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{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
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{ | |
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{ | |
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{ | |
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{ | |
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{ | |
"abs_title": "Characterization of strain in CVD graphene on copper substrates", | |
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{ | |
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{ | |
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{ | |
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{ | |
"abs_title": "Room Temperature Quantum Hall Effect in Graphene", | |
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{ | |
"abs_title": "Stacking Faults and Topological Kink States in Bilayer Graphene", | |
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{ | |
"abs_title": "Spin and Valley Splitting of Two-Dimensional Electrons in Graphene in the High Magnetic Field Limit", | |
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{ | |
"abs_title": "Electronic transport in graphene\/CdSe nanoparticle monolayer\/graphene tunneling devices", | |
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{ | |
"abs_title": "Novel Fabrication Techniques for Wafer-Scale Graphene Drum NanoElectroMechanical Resonators", | |
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{ | |
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{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
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{ | |
"abs_title": "Beyond graphene: atomic scale structure of quasi-2D van der Waals materials", | |
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}, | |
{ | |
"abs_title": "Landau Level Collapse in Gated Graphene Structures", | |
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{ | |
"abs_title": "Individual Single-Walled Carbon Nanotube Device Fabrication for Terahertz Detection", | |
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{ | |
"abs_title": "Radio Frequency Electrical Transduction of Graphene Mechanical Resonators", | |
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{ | |
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{ | |
"abs_title": "Control of Metastable Charge Density Wave Phases in Ultrathin 1T-TaS$_{2}$", | |
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{ | |
"abs_title": "Electronic transport across a Carbon nanotube Heterojunction: Experimental observations of high temperature Coulomb Charging and level spacing.", | |
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{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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{ | |
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{ | |
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{ | |
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{ | |
"abs_title": "Exfoliated Thin Crystals: A New Platform For Exploring Cuprate Physics", | |
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{ | |
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{ | |
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{ | |
"abs_title": "Scaling of Resistance with Channel Length in Single Walled Carbon Nanotubes.", | |
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{ | |
"abs_title": "Spin and valley quantum Hall ferromagnetism in graphene on hexa-Boron nitride substrates", | |
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{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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{ | |
"abs_title": "Diameter Dependence of the Transport Properties of Antimony Telluride Nanowires", | |
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{ | |
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{ | |
"abs_title": "Charge transport and optoelectronic process in an atomically thin p-n junction", | |
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{ | |
"abs_title": "Spin and Valley Splitting of Two-Dimensional Electrons in Graphene in the High Magnetic Field Limit", | |
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{ | |
"abs_title": "High resolution thermal properties study of Joule self-heated graphene nanoribbon", | |
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{ | |
"abs_title": "Current-Voltage Characteristics of Electrolyte-Gated Graphene Field-Effect Transistors", | |
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{ | |
"abs_title": "Landau level spectroscopy of incompressible quantum hall states in BN\/bilayer graphene\/NbSe2 heterostructures", | |
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{ | |
"abs_title": "Electronic transport across a Carbon nanotube Heterojunction: Experimental observations of high temperature Coulomb Charging and level spacing.", | |
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{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
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}, | |
{ | |
"abs_title": "Graphitic carbon molecular beam epitaxy on dielectric substrates", | |
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{ | |
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}, | |
{ | |
"abs_title": "Enhanced OFF state resistance in reconfigurable graphene p-n junction", | |
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{ | |
"abs_title": "Bolometric Response of a Single-Wall Carbon Nanotube", | |
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"source": 266 | |
}, | |
{ | |
"abs_title": "Characterization of strain in CVD graphene on copper substrates", | |
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{ | |
"abs_title": "Understanding Metal-Insulator transitions in ultra-thin films of LaNiO$_{3}$", | |
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"source": 266 | |
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{ | |
"abs_title": "Self-sustained graphene mechanical oscillators", | |
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{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
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{ | |
"abs_title": "Symmetry Breaking in Hofstadter's Butterfly in graphene", | |
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}, | |
{ | |
"abs_title": "Atomic-Scale Topographic and Electronic Structure of Graphene Films on Ultraflat Insulating Materials", | |
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{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
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{ | |
"abs_title": "Band structure asymmetry of bilayer graphene revealed by infrared spectroscopy", | |
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{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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{ | |
"abs_title": "Landau Level Lifetimes and Residual Disorder in Single Layer Graphene on Boron-Nitride Substrates", | |
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}, | |
{ | |
"abs_title": "Tip-induced Coulomb gap in scanning tunneling microscopy experiment on graphene", | |
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{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
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{ | |
"abs_title": "Beyond graphene: atomic scale structure of quasi-2D van der Waals materials", | |
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{ | |
"abs_title": "Electronic Structure of Suspended Bilayer Graphene", | |
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{ | |
"abs_title": "High resolution thermal properties study of Joule self-heated graphene nanoribbon", | |
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{ | |
"abs_title": "Graphene thermal transport studies via radio-frequency, cross-correlated Johnson noise thermometry", | |
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{ | |
"abs_title": "Large Single-Crystal Graphene Growth on Copper: The Role of Oxygen", | |
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}, | |
{ | |
"abs_title": "Graphitic carbon molecular beam epitaxy on dielectric substrates", | |
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{ | |
"abs_title": "Scanning Probe Microscopy studies of 2D and quasi-2D graphene crystal structures.", | |
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{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
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{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
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{ | |
"abs_title": "Performance of graphene nanoelectromechanical resonators", | |
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}, | |
{ | |
"abs_title": "Quantum dot in semiconducting single walled carbon nanotube on thin hexagonal boron nitride", | |
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}, | |
{ | |
"abs_title": "Spin and Valley Splitting of Two-Dimensional Electrons in Graphene in the High Magnetic Field Limit", | |
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}, | |
{ | |
"abs_title": "Spectromicroscopy measurements of surface morphology and band structure of exfoliated graphene", | |
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{ | |
"abs_title": "Electric Field Effect Modulation of Charge Transport in Atomically Thin Bi$_{2}$Sr$_{2}$CaCu$_{2}$O$_{8+\\delta}$", | |
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{ | |
"abs_title": "Radio Frequency Electrical Transduction of Graphene Mechanical Resonators", | |
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{ | |
"abs_title": "Molecular Beam Deposition and Raman Characterization of Large Area Graphitic layers", | |
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{ | |
"abs_title": "Channel Length Scaling Effects in Graphene Field-Effect Transistor", | |
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{ | |
"abs_title": "Electrical transport between single-crystal domains in graphene: bigger is not always better", | |
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{ | |
"abs_title": "Landau Level Lifetimes and Residual Disorder in Single Layer Graphene on Boron-Nitride Substrates", | |
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{ | |
"abs_title": "Quantum Oscillations in Microwave Conductance of Graphene", | |
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{ | |
"abs_title": "Beyond graphene: atomic scale structure of quasi-2D van der Waals materials", | |
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{ | |
"abs_title": "CVD-grown graphene on LaAlO$_3$\/SrTiO$_3$: transferring, patterning and c-AFM lithography", | |
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"source": 266 | |
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{ | |
"abs_title": "Lithium Intercalation of Few-Layer Graphenes in the 2-Layer Limit", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "Spatial Variation and Temporal Fluctuation of Domains at Equilibrium in a PbTiO3\/SrTiO3 Superlattice", | |
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{ | |
"abs_title": "Spin injection and transport in single layer graphene spin valves", | |
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{ | |
"abs_title": "Growth of atomically smooth MgO films on graphene by molecular beam epitaxy.", | |
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{ | |
"abs_title": "Functionalization of exfoliated graphene by grafting aryl groups", | |
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{ | |
"abs_title": "Functionalization of exfoliated graphene by grafting aryl groups", | |
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{ | |
"abs_title": "Fabrication of High Quality Suspended Graphene devices", | |
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}, | |
{ | |
"abs_title": "Fabrication of High Quality Suspended Graphene devices", | |
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{ | |
"abs_title": "Transport in Bilayer Graphene at the Charge Neutrality Point", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
"target": 376, | |
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{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
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{ | |
"abs_title": "Gate-tunable nanoplasmonic effects in single- and bi-layer graphene", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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}, | |
{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Spatial Variation and Temporal Fluctuation of Domains at Equilibrium in a PbTiO3\/SrTiO3 Superlattice", | |
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"source": 289 | |
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{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
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"source": 292 | |
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{ | |
"abs_title": "Spin injection and transport in graphene layers", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
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{ | |
"abs_title": "Lithium-Intercalated Few Layer Graphene: Approaching the Limits of Transparency and Conductivity in Graphene-based Materials", | |
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"source": 301 | |
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{ | |
"abs_title": "Quantum Channels and Conductance Oscillations in TiOx Nano-switches", | |
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{ | |
"abs_title": "Thermal Conductivity of Encased Graphene", | |
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{ | |
"abs_title": "Experimental Measurement of Thermal Expansion Coefficient of few layer graphene", | |
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{ | |
"abs_title": "Ballistic Phonon Thermal Transport and Thermal Properties of Carbon Nanotubes", | |
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{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
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{ | |
"abs_title": "Morphology and Transport in Suspended graphene Membrane", | |
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{ | |
"abs_title": "Doping effect of electrode on Graphene", | |
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{ | |
"abs_title": "The Effect of Cluster Formation on Graphene Mobility", | |
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{ | |
"abs_title": "Control Over the Adhesion and Strain on Graphene Using Arrays of Mesoscale Pyramids", | |
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{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
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{ | |
"abs_title": "Control Over the Adhesion and Strain on Graphene Using Arrays of Mesoscale Pyramids", | |
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{ | |
"abs_title": "Controllable P-N Junctions in Graphene-Ferroelectric Devices", | |
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{ | |
"abs_title": "Josephson Junctions based Suspended Bi2Se3 nanoribbons", | |
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{ | |
"abs_title": "Suspension of Graphene and Bi2Se3 Atomic Membrane", | |
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{ | |
"abs_title": "Transport in Suspended graphene under strain", | |
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{ | |
"abs_title": "Transport Spectroscopy of Symmetry-Broken Insulating States in Bilayer Graphene", | |
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{ | |
"abs_title": "Neutral currents probed by non-local transport in graphene with 5 \\textit{d} metal adatoms", | |
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}, | |
{ | |
"abs_title": "Transport in Suspended graphene under strain", | |
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{ | |
"abs_title": "Quantumn Hall Effect in single-, bi- and tri-layer graphene", | |
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{ | |
"abs_title": "Transport in Suspended graphene under strain", | |
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{ | |
"abs_title": "Transport Properties of Dual-Gated Bilayer Graphene\/Hexagonal Boron Nitride Moir\\'e Superlattices", | |
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"source": 351 | |
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{ | |
"abs_title": "Near-field spectroscopy of graphene during ultrafast photoexcitation", | |
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{ | |
"abs_title": "Scanned Probe Measurements of Graphene on Ferroelectrics", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Neutral currents probed by non-local transport in graphene with 5 \\textit{d} metal adatoms", | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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{ | |
"abs_title": "Josephson Junctions based Suspended Bi2Se3 nanoribbons", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Annealing and ionic liquid gating on suspended molybdenum disulfide devices", | |
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{ | |
"abs_title": "Sub-lithographic Patterning of Extended Arrays of Graphene Nanostructures", | |
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"source": 358 | |
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{ | |
"abs_title": "Zero-Dimensional Electrical Contact to a One-Dimensional Material", | |
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"source": 358 | |
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{ | |
"abs_title": "Thermopower of Few-Layer Graphene Devices", | |
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"source": 358 | |
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{ | |
"abs_title": "Functionalization of exfoliated graphene by grafting aryl groups", | |
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{ | |
"abs_title": "Ultrafast plasmonic behavior of graphene probed by infrared nanoscopy", | |
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{ | |
"abs_title": "Interplay between induced superconductivity and Luttinger liquid behavior in carbon nanotubes", | |
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"source": 358 | |
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{ | |
"abs_title": "High temperature Graphene-based Quantum Hall Effect Infrared photodetector", | |
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"source": 358 | |
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{ | |
"abs_title": "Thermopower of Few-Layer Graphene Devices", | |
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"source": 358 | |
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{ | |
"abs_title": "Quantum Channels and Conductance Oscillations in TiOx Nano-switches", | |
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"source": 358 | |
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{ | |
"abs_title": "Infrared nano-imaging and nano-spectroscopy of surface plasmons in bilayer graphene", | |
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"source": 358 | |
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"id": "Ross Harder", | |
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}, | |
{ | |
"id": "Yeon Suk Hong", | |
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}, | |
{ | |
"id": "Yoichi Ando", | |
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}, | |
{ | |
"id": "Cori Dean", | |
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}, | |
{ | |
"id": "Kevin F. Mccarty", | |
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}, | |
{ | |
"id": "Luigi Colombo", | |
"group": "1" | |
}, | |
{ | |
"id": "Stephen Gill", | |
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}, | |
{ | |
"id": "Alan True", | |
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}, | |
{ | |
"id": "Loren N. Pfeiffer", | |
"group": "1" | |
}, | |
{ | |
"id": "Li-Chun Tung", | |
"group": "1" | |
}, | |
{ | |
"id": "Pilkyung Moon", | |
"group": "1" | |
}, | |
{ | |
"id": "Datong Zhang", | |
"group": "1" | |
}, | |
{ | |
"id": "Yuri Zuev", | |
"group": "1" | |
}, | |
{ | |
"id": "Ronojoy Saha", | |
"group": "3" | |
}, | |
{ | |
"id": "Leonard C. Feldman", | |
"group": "0" | |
}, | |
{ | |
"id": "William Swanson", | |
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}, | |
{ | |
"id": "Claudy Rayan Serrao", | |
"group": "1" | |
}, | |
{ | |
"id": "Aleksandr Rodin", | |
"group": "0" | |
}, | |
{ | |
"id": "Feng Wang", | |
"group": "0" | |
}, | |
{ | |
"id": "Jiayu Wan", | |
"group": "0" | |
}, | |
{ | |
"id": "Elena Bekyarova", | |
"group": "0" | |
}, | |
{ | |
"id": "Alexander Mcleod", | |
"group": "0" | |
}, | |
{ | |
"id": "Changyao Chen", | |
"group": "1" | |
}, | |
{ | |
"id": "Darrell G. Schlom", | |
"group": "1" | |
}, | |
{ | |
"id": "Arthur Hebard", | |
"group": "3" | |
}, | |
{ | |
"id": "Kyle Pi", | |
"group": "0" | |
}, | |
{ | |
"id": "Pei-Hsun Jiang", | |
"group": "1" | |
}, | |
{ | |
"id": "Meredith Nevius", | |
"group": "0" | |
}, | |
{ | |
"id": "Sunwoo Lee", | |
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}, | |
{ | |
"id": "Kathy Mccreary", | |
"group": "0" | |
}, | |
{ | |
"id": "Yong Wu", | |
"group": "0" | |
}, | |
{ | |
"id": "H. Dennis Drew", | |
"group": "0" | |
}, | |
{ | |
"id": "Mohammed Humed Yusuf", | |
"group": "3" | |
}, | |
{ | |
"id": "Keun S. Kim", | |
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}, | |
{ | |
"id": "Sara Rothwell", | |
"group": "0" | |
}, | |
{ | |
"id": "Charles Schmuttenmaer", | |
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}, | |
{ | |
"id": "Hyungwoo Lee", | |
"group": "1" | |
}, | |
{ | |
"id": "Theanne Schiros", | |
"group": "1" | |
}, | |
{ | |
"id": "Jeremy Levy", | |
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}, | |
{ | |
"id": "Matthew Yankowitz", | |
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}, | |
{ | |
"id": "Keyu Pi", | |
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}, | |
{ | |
"id": "Kevin Myhro", | |
"group": "0" | |
}, | |
{ | |
"id": "David Tran", | |
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}, | |
{ | |
"id": "Luyao Zhang", | |
"group": "0" | |
}, | |
{ | |
"id": "Mason Gray", | |
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}, | |
{ | |
"id": "Philip D.C. King", | |
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}, | |
{ | |
"id": "Lu Chen", | |
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}, | |
{ | |
"id": "Marivi Fernandez Serra", | |
"group": "3" | |
}, | |
{ | |
"id": "Adam Tsen", | |
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}, | |
{ | |
"id": "Kirill Bolotin", | |
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}, | |
{ | |
"id": "Chunning Lau" | |
}, | |
{ | |
"id": "Yue Zhao", | |
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}, | |
{ | |
"id": "Douglas Ohlberg", | |
"group": "0" | |
}, | |
{ | |
"id": "Michael Fuhrer", | |
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}, | |
{ | |
"id": "Daniil Stolyarov", | |
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}, | |
{ | |
"id": "Dmitri Averin", | |
"group": "3" | |
}, | |
{ | |
"id": "Inanc Meric", | |
"group": "1" | |
}, | |
{ | |
"id": "Chenguang Lu", | |
"group": "1" | |
}, | |
{ | |
"id": "Chongwu Zhou", | |
"group": "0" | |
}, | |
{ | |
"id": "Joao Rodrigues", | |
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}, | |
{ | |
"id": "Matthew Conrad", | |
"group": "0" | |
}, | |
{ | |
"id": "Martin Klima", | |
"group": "1" | |
}, | |
{ | |
"id": "Wanyoung Jiang", | |
"group": "0" | |
}, | |
{ | |
"id": "John Ciraldo", | |
"group": "0" | |
}, | |
{ | |
"id": "Pinshane Huang", | |
"group": "1" | |
}, | |
{ | |
"id": "Jin Sook Lee", | |
"group": "1" | |
}, | |
{ | |
"id": "Takashi Taniguchi", | |
"group": "1" | |
}, | |
{ | |
"id": "Maika Takita", | |
"group": "1" | |
}, | |
{ | |
"id": "Daeyeong Lee", | |
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}, | |
{ | |
"id": "Paul Mceuen", | |
"group": "1" | |
}, | |
{ | |
"id": "Theresa Villarson", | |
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}, | |
{ | |
"id": "Dmitry Smirnov", | |
"group": "0" | |
}, | |
{ | |
"id": "James Hone", | |
"group": "1" | |
}, | |
{ | |
"id": "Dean Cvetko", | |
"group": "1" | |
}, | |
{ | |
"id": "Lena Fitting Kourkoutis", | |
"group": "1" | |
}, | |
{ | |
"id": "Jerry Dadap", | |
"group": "1" | |
}, | |
{ | |
"id": "Bent Nielsen", | |
"group": "3" | |
}, | |
{ | |
"id": "Piranavan Kumaravadivel", | |
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}, | |
{ | |
"id": "Fereshte Ghahari", | |
"group": "1" | |
}, | |
{ | |
"id": "Allan Macdonald", | |
"group": "0" | |
}, | |
{ | |
"id": "Hua Chen", | |
"group": "1" | |
}, | |
{ | |
"id": "Jhao-Wun Huang", | |
"group": "0" | |
}, | |
{ | |
"id": "Mark Hybertsen", | |
"group": "1" | |
}, | |
{ | |
"id": "Erik A. Henriksen", | |
"group": "1" | |
}, | |
{ | |
"id": "Achim Harzheim", | |
"group": "1" | |
}, | |
{ | |
"id": "Cory Dean", | |
"group": "1" | |
}, | |
{ | |
"id": "Simas Glinskis", | |
"group": "1" | |
}, | |
{ | |
"id": "Xiaogang Han", | |
"group": "0" | |
}, | |
{ | |
"id": "Yunlu Xu", | |
"group": "0" | |
}, | |
{ | |
"id": "Lei Jing", | |
"group": "0" | |
}, | |
{ | |
"id": "Roland K. Kawakami", | |
"group": "0" | |
}, | |
{ | |
"id": "Nadya Mason", | |
"group": "2" | |
}, | |
{ | |
"id": "Sarah Goler", | |
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}, | |
{ | |
"id": "Matt Zhang", | |
"group": "1" | |
}, | |
{ | |
"id": "Luigi Frunzio", | |
"group": "1" | |
}, | |
{ | |
"id": "Zhengyi Zhang", | |
"group": "1" | |
}, | |
{ | |
"id": "Joonkyu Park", | |
"group": "3" | |
}, | |
{ | |
"id": "Karthik Jambunathan", | |
"group": "2" | |
}, | |
{ | |
"id": "Seok Ju Kang", | |
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}, | |
{ | |
"id": "Shuaimin Liu", | |
"group": "1" | |
}, | |
{ | |
"id": "Gang Liu", | |
"group": "0" | |
}, | |
{ | |
"id": "Ulrich Wurstbauer", | |
"group": "1" | |
}, | |
{ | |
"id": "Fritz Keilmann", | |
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}, | |
{ | |
"id": "Philip Kim" | |
}, | |
{ | |
"id": "Dmitri K. Efetov", | |
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}, | |
{ | |
"id": "Changgu Lee", | |
"group": "1" | |
}, | |
{ | |
"id": "Lingfeng M. Zhang", | |
"group": "0" | |
}, | |
{ | |
"id": "Margaret Cosgriff", | |
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}, | |
{ | |
"id": "Boris Karasik", | |
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}, | |
{ | |
"id": "Michael Martin", | |
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}, | |
{ | |
"id": "Wang Wang", | |
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}, | |
{ | |
"id": "Hariharaputran Ramanarayan", | |
"group": "1" | |
}, | |
{ | |
"id": "Wei-Hua Wang", | |
"group": "0" | |
}, | |
{ | |
"id": "Huazhou Wei", | |
"group": "0" | |
}, | |
{ | |
"id": "Jason Seol", | |
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}, | |
{ | |
"id": "Velasco Jairo", | |
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}, | |
{ | |
"id": "Brian Standley", | |
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}, | |
{ | |
"id": "Aniruddh Ravi", | |
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}, | |
{ | |
"id": "Gerardo Dominguez", | |
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}, | |
{ | |
"id": "Richard Tung", | |
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}, | |
{ | |
"id": "Robert J. Cava", | |
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}, | |
{ | |
"id": "Dohun Kim", | |
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}, | |
{ | |
"id": "Stephen Brien", | |
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}, | |
{ | |
"id": "Gregory Andreev", | |
"group": "0" | |
}, | |
{ | |
"id": "Feng Bi", | |
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}, | |
{ | |
"id": "Mark Thiemens", | |
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}, | |
{ | |
"id": "Paul Evans", | |
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}, | |
{ | |
"id": "Sebastian Sorgenfrei", | |
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}, | |
{ | |
"id": "Elton Santos", | |
"group": "1" | |
}, | |
{ | |
"id": "Peng Wang", | |
"group": "0" | |
}, | |
{ | |
"id": "Li Liu", | |
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}, | |
{ | |
"id": "Zhao Hao", | |
"group": "1" | |
}, | |
{ | |
"id": "Jeanie C. N. Lau", | |
"group": "0" | |
}, | |
{ | |
"id": "Patrick Maher", | |
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}, | |
{ | |
"id": "Michael D. Goldflam", | |
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}, | |
{ | |
"id": "Francisco Guinea", | |
"group": "0" | |
}, | |
{ | |
"id": "Alex Swinton Mcleod", | |
"group": "1" | |
}, | |
{ | |
"id": "Jesse Crossno", | |
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}, | |
{ | |
"id": "Liangbing Hu", | |
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}, | |
{ | |
"id": "Igor Pogorelsky", | |
"group": "1" | |
}, | |
{ | |
"id": "Guohong Li", | |
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}, | |
{ | |
"id": "Jing Guo", | |
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}, | |
{ | |
"id": "J. Joshua Yang", | |
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}, | |
{ | |
"id": "Young Duck Kim", | |
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}, | |
{ | |
"id": "Ken Shephard", | |
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}, | |
{ | |
"id": "Euyheon Hwang", | |
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}, | |
{ | |
"id": "Efthimios Kaxiras", | |
"group": "1" | |
}, | |
{ | |
"id": "Kostya Novoselov", | |
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}, | |
{ | |
"id": "Yuanyue Liu", | |
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}, | |
{ | |
"id": "C.N. Lau", | |
"group": "0" | |
}, | |
{ | |
"id": "Chun Ning(Jeanie) Lau", | |
"group": "0" | |
}, | |
{ | |
"id": "Sunmin Ryu", | |
"group": "1" | |
}, | |
{ | |
"id": "Hsin-Ying Chiu", | |
"group": "0" | |
}, | |
{ | |
"id": "Ke Wang", | |
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}, | |
{ | |
"id": "Zhen Chen", | |
"group": "0" | |
}, | |
{ | |
"id": "Limin Huang", | |
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}, | |
{ | |
"id": "Shu Yang Frank Zhao", | |
"group": "1" | |
}, | |
{ | |
"id": "Congchun Zhang", | |
"group": "1" | |
}, | |
{ | |
"id": "Shancai Wang", | |
"group": "1" | |
}, | |
{ | |
"id": "Jiwoong Park", | |
"group": "1" | |
}, | |
{ | |
"id": "Tony Heinz", | |
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}, | |
{ | |
"id": "Yufeng Hao", | |
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}, | |
{ | |
"id": "Vittorio Pellegrini", | |
"group": "1" | |
}, | |
{ | |
"id": "Dmitri Maslov", | |
"group": "3" | |
}, | |
{ | |
"id": "Kyle M. Shen", | |
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}, | |
{ | |
"id": "Wei Han", | |
"group": "0" | |
}, | |
{ | |
"id": "J. Henry Hinnefeld" | |
}, | |
{ | |
"id": "Leonid Levitov", | |
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}, | |
{ | |
"id": "Elena Stolyarova", | |
"group": "1" | |
}, | |
{ | |
"id": "Byung Hee Hong", | |
"group": "1" | |
}, | |
{ | |
"id": "Vitaly Yakimenko", | |
"group": "1" | |
}, | |
{ | |
"id": "Babak Fallahazad", | |
"group": "1" | |
}, | |
{ | |
"id": "Kevin Yager", | |
"group": "1" | |
}, | |
{ | |
"id": "Cheng Tan", | |
"group": "1" | |
}, | |
{ | |
"id": "Jing Shi", | |
"group": "0" | |
}, | |
{ | |
"id": "Daniel F. Santavicca", | |
"group": "1" | |
}, | |
{ | |
"id": "David Dung Tran", | |
"group": "0" | |
}, | |
{ | |
"id": "Jeil Jung", | |
"group": "0" | |
}, | |
{ | |
"id": "Michael Roth", | |
"group": "1" | |
}, | |
{ | |
"id": "Shudong Xiao", | |
"group": "0" | |
}, | |
{ | |
"id": "Chun Ning (Jeanie) Lau", | |
"group": "0" | |
}, | |
{ | |
"id": "Rodney S. Ruoff", | |
"group": "1" | |
}, | |
{ | |
"id": "Chang-Beom Eom", | |
"group": "1" | |
}, | |
{ | |
"id": "Jairo Velasco", | |
"group": "0" | |
}, | |
{ | |
"id": "Jim Hone", | |
"group": "1" | |
}, | |
{ | |
"id": "Everett Comfort", | |
"group": "1" | |
}, | |
{ | |
"id": "Yinsheng Guo", | |
"group": "1" | |
}, | |
{ | |
"id": "Guangxin Ni", | |
"group": "1" | |
}, | |
{ | |
"id": "Tengfei Miao", | |
"group": "0" | |
}, | |
{ | |
"id": "Dimitri Basov", | |
"group": "0" | |
}, | |
{ | |
"id": "Jiang Zhao", | |
"group": "0" | |
}, | |
{ | |
"id": "Mina Fazlollahi", | |
"group": "1" | |
}, | |
{ | |
"id": "Christoph Baeumer", | |
"group": "2" | |
}, | |
{ | |
"id": "Eric Iwinski", | |
"group": "0" | |
}, | |
{ | |
"id": "Xinghan Cai", | |
"group": "0" | |
}, | |
{ | |
"id": "Chun Ning Lau", | |
"group": "0" | |
}, | |
{ | |
"id": "Paul G. Evans", | |
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}, | |
{ | |
"id": "Christopher Gutierrez", | |
"group": "1" | |
}, | |
{ | |
"id": "Onur Mentes", | |
"group": "1" | |
}, | |
{ | |
"id": "Mekan Ovezmyradov", | |
"group": "0" | |
}, | |
{ | |
"id": "William Kalb", | |
"group": "1" | |
}, | |
{ | |
"id": "Sarah C. Parks", | |
"group": "0" | |
}, | |
{ | |
"id": "Sara Callori", | |
"group": "3" | |
}, | |
{ | |
"id": "Mikito Koshino", | |
"group": "1" | |
}, | |
{ | |
"id": "Xiaohan Wang", | |
"group": "1" | |
}, | |
{ | |
"id": "Zhigang Jiang", | |
"group": "1" | |
}, | |
{ | |
"id": "Emanuel Tutuc", | |
"group": "1" | |
}, | |
{ | |
"id": "Alexei Barinov", | |
"group": "1" | |
}, | |
{ | |
"id": "Pratik Agnihotri", | |
"group": "1" | |
}, | |
{ | |
"id": "Michael S. Fuhrer", | |
"group": "0" | |
}, | |
{ | |
"id": "Heli Vora", | |
"group": "3" | |
}, | |
{ | |
"id": "Antonio Castro-Neto", | |
"group": "0" | |
}, | |
{ | |
"id": "Naomi Mizuno", | |
"group": "3" | |
}, | |
{ | |
"id": "Wenzhong Bao", | |
"group": "0" | |
}, | |
{ | |
"id": "Shuze Zhu", | |
"group": "2" | |
}, | |
{ | |
"id": "Daniel Santavicca", | |
"group": "1" | |
}, | |
{ | |
"id": "Diego Scarabelli", | |
"group": "1" | |
}, | |
{ | |
"id": "Jairo Volesco", | |
"group": "0" | |
}, | |
{ | |
"id": "Giriraj Jnawali", | |
"group": "1" | |
}, | |
{ | |
"id": "Jyotsna Chauhan", | |
"group": "1" | |
}, | |
{ | |
"id": "Andre Geim", | |
"group": "1" | |
}, | |
{ | |
"id": "Abhay Pasupathy", | |
"group": "1" | |
}, | |
{ | |
"id": "John Jaszczak", | |
"group": "1" | |
}, | |
{ | |
"id": "Kathleen Mccreary", | |
"group": "0" | |
}, | |
{ | |
"id": "Irving P. Herman", | |
"group": "1" | |
}, | |
{ | |
"id": "Gwan Hyoung Lee", | |
"group": "1" | |
}, | |
{ | |
"id": "Adrian Swartz", | |
"group": "0" | |
}, | |
{ | |
"id": "Kwang S. Kim", | |
"group": "1" | |
}, | |
{ | |
"id": "Bumjung Kim", | |
"group": "1" | |
}, | |
{ | |
"id": "Philip Cohen", | |
"group": "0" | |
}, | |
{ | |
"id": "Mitsuhide Takekoshi", | |
"group": "1" | |
}, | |
{ | |
"id": "Kirk W. Baldwin", | |
"group": "1" | |
}, | |
{ | |
"id": "Antonio H. Castro-Neto", | |
"group": "0" | |
}, | |
{ | |
"id": "Claudia Ojeda-Aristizabal", | |
"group": "0" | |
}, | |
{ | |
"id": "Janice Reutt-Robey", | |
"group": "0" | |
}, | |
{ | |
"id": "Daniel Prober", | |
"group": "3" | |
}, | |
{ | |
"id": "Alexander Gondarenko", | |
"group": "1" | |
}, | |
{ | |
"id": "Surajit Sutar", | |
"group": "1" | |
}, | |
{ | |
"id": "Nicholas Petrone", | |
"group": "1" | |
}, | |
{ | |
"id": "Dennis Wang", | |
"group": "1" | |
}, | |
{ | |
"id": "Zhiyong Wang", | |
"group": "0" | |
}, | |
{ | |
"id": "Lingfeng Zhang", | |
"group": "0" | |
}, | |
{ | |
"id": "Yang Wu", | |
"group": "1" | |
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"graph": { | |
} | |
} |
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