Graphene: fundamentals, devices and applications/ Serhii Shafraniuk

Chiral fermions in graphene Low-energy electron excitations in grapheneDirac equation for chiral fermionsBerry phase and topological singularity in grapheneKlein paradox and chiral tunnelingLandau levels in graphene Modeling the graphene devicesINTRINSIC COHERENCE OF GRAPHENEThe field-biased graphene junctionsElectron and hole excitations in grapheneQuantum capacitance of grapheneEinstein relation in grapheneElectrostatics of gated graphene devices: charge traps near the graphene/oxide interface Steady-state electrostatics of graphene field-effect transistorsCharacteristic scales of gated grapheneSolving the electrostatic equationCapacitance of the channel and of the gateDiffusion-drift current ratio of the diffusion and drift currentsContinuity of electric currentInhomogeneous behavior of chemical and electrostatic potential along the channelMicroscopic model of electron transport through the field-effect transistorConventional tunneling via a rectangular barrierChiral tunneling through a rectangular barrierRole of edges: armchair edgesRole of edges: zigzag edgesDeviation of an electron inside a wide chiral barrierElectric current density across the chiral barrierGate voltage-controlled quantizationA hybrid graphene-CNT junctionElectric current characteristicsThe saturation regime (pinch-off)Linear behavior in low fieldsTransit time through the channel The diffusion-drift approximationEffects in the high field Generalized boundary conditionsPseudo-diffusive dynamicsConfinement and ZitterbewegungQUANTIZED STATES IN GRAPHENE RIBBONS Tight-binding model of bilayer grapheneA bilayer graphene junctionHeavy chiral fermion state in graphene stripe3.4. Quantum-confined Stark effectPT-invariance the Dirac HamiltonianHeavy chiral fermions at zigzag edges of graphene stripePHONONS AND RAMAN SCATTERING IN GRAPHENE Phonon modes in the two-dimensional graphenePhonon spectra in graphene, and graphene nanoribbons The phonon transport in two-dimensional crystalsMomentum diagram of phonon transport in grapheneThermal conductivity due to phonons in graphene nanoribbonsRaman scatteringRole the degrees of freedomMolecular vibrations and infrared radiationVarious processes of light scatteringStokes and anti-Stokes scatteringRaman scattering versus fluorescenceSelection rules for Raman scatteringRaman amplification and Stimulated Raman scattering A requirement of the coherencePractical applicationsHigher-order Raman spectra Raman spectroscopy of graphene Kohn anomalies, double resonance, and D and G peaks Deriving the electron-phonon coupling from Raman line width Raman spectroscopy of graphene and graphene layers Failure the adiabatic Born-Oppenheimer approximation and the Raman spectrum of doped grapheneInfluence of the atomic and structural disordersGraphene ribbons and edges ELECTRON SCATTERING ON ATOMIC DEFECTS AND PHONONS IN GRAPHENE Pseudospin conservation during the scattering of chiral fermions Phonon drag effectScreening by interacting electronsPlasma oscillationsPlasma excitations in graphene Coupling between electrons and phononsSusceptibility of graphene Graphene Dielectric function in graphene and CNTElectron-impurity scattering time in grapheneScattering of phonons in a few-layer grapheneMANY-BODY EFFECTS IN GRAPHENE Electron-electron Coulomb interactionElectron self-energyQuasi-particle excitation energyComputational resultsExcitons Wannier-Mott excitonsExcitonic statesExperimental observation of excitons in grapheneElectron scattering on indirect excitonsTomonaga-Luttinger liquidProbing of intrinsic state of one-dimensional quantum well with a photon-assisted tunnelingThe TLL tunneling density of states of a long quantum wellIdentifying the charge and the spin boson energy levelsUseful relationshipsANDREEV REFLECTION IN GRAPHENE Graphene/superconductor interfaceConversion between Electrons and holes at the N/S interface BTK model of Andreev reflectionExperimental study of the Andreev reflection in grapheneInterpretation of Andreev reflection in graphene-based junctionsAmplitude of composite Andreev reflectionAmplitude of composite Andreev reflectionVan Hove singularities and superconductivity in carbon nanotubes and graphene stripesTheoretical modelNON-EQUILIBRIUM EFFECTS IN GRAPHENE DEVICES Relevance of non-equilibrium effects in graphene junctionTunneling rates for a graphene junctionNon-equilibrium electric currentThe Green Keldysh function of non-equilibrium electrons"Homogeneous" approximation inside the chiral barrierExpressions for the advanced Green functionsThe -function approximationPhoton-assisted tunneling current through the chiral barrierElectron self-energy and many-body effectsQuantum kinetic equation for Symmetric junctionNon-equilibrium contributionThe photon-assisted electric currentEquilibrium currentThe gate currentExcessive regular currentAbsorbed powerJarzynski equality for quantum systems Quantum Jarzynski equality for spin 1/2GRAPHENE THERMOELECTRIC NANOCOOLERS AND ELECTRICITY CO-GENERATORS Thermoelectric effects on the nanoscalePerformance of the thermoelectric device Quantum theory of electronic thermal transport Electron transport and elastic collisionsReversible Peltier effect in carbon nano-junctionsThermoelectric figure of merit and Fourier lawPhonon transport and thermal conductivityRecent experiments for measuring the thermal conductivity of grapheneMicroscopic model of the thermoelectric effectConverting the heat into electricity by a graphene stripe with heavy chiral fermionsBlocking the phonon flow by multilayered electrodesMolecular dynamics simulationsNon-equilibrium thermal injectionPerspectives of thermoelectric research for grapheneSENSING AND EMISSION OF ELECTROMAGNETIC WAVES WITH GRAPHENE AND CARBON NANOTUBE QUANTUM DOTS Sensors of electromagnetic field THz sensor based on carbon nanotube quantum dotMicroscopic model of the carbon nanotube quantum dot sensor Electromagnetic field influenceKey assumptionsElectron quantization in the steady stateThe THz field influence to quantum dotCharacteristics of the electric transportResponsivity and quantum efficiency of the THz detector Intrinsic noise and the noise equivalent powerFrequency range and operation temperature OTHER ATOMIC MONOLAYERS Atomic monolayersMonolayer and a few-layered materialsElectric transport in nanodevicesElectronic transport versus scattering mechanismsTMDC transistors Perspectives of the TMDC electronics Vibrational and optical properties of TMDCsThe future applications of 2D materials