Add to ORKGWe apply the semi-classical Boltzmann formalism for the computation of transport properties to multilayer graphene. We compute the electrical conductivity as well as the thermal conductivity and thermopower for Bernal-stacked multilayers with an even number of layers. We show that the window for hydrodynamic transport in multilayer graphene is similar to the case of bilayer graphene. We introduce a simple hydrodynamic model which we dub the multi-fluid model and which can be used to reproduce the results for the electrical conductivity and thermopower from the semi-classical Boltzmann equation
Based on the recently developed picture of an electronic ideal relativistic fluid at the Dirac point...
We demonstrate the possibility of turbulent flow of electrons in graphene in the hydrodynamic region...
The presence of twist angles between layers of two-dimensional materials has a profound impact on th...
In this paper we study thermo-electric transport in interacting two-dimensional Dirac-type systems u...
Graphene, a single atomic layer of graphite, has emerged as one of the most attractive materials in ...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane,...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane, ...
We theoretically investigate Coulomb drag in a system of two parallel monolayers of graphene. Using ...
The aim of this work is to compare, in monolayer graphene, solutions of the electron Boltzmann equat...
Semi-classical hydrodynamic models for charge transport in graphene have been presented. They are de...
We numerically study the thermoelectric and thermal transport in ABA-stacked trilayer graphene in th...
In this thesis, we investigate charge transport in graphene. Graphene is one of the most important n...
A semi-classical electrodynamical model is derived to describe the electrical transport along graphe...
The conduction of heat in two dimensions displays a wealth of fascinating phenomena of key relevance...
We develop a general hydrodynamic framework for computing direct current thermal and electric transp...
Based on the recently developed picture of an electronic ideal relativistic fluid at the Dirac point...
We demonstrate the possibility of turbulent flow of electrons in graphene in the hydrodynamic region...
The presence of twist angles between layers of two-dimensional materials has a profound impact on th...
In this paper we study thermo-electric transport in interacting two-dimensional Dirac-type systems u...
Graphene, a single atomic layer of graphite, has emerged as one of the most attractive materials in ...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane,...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane, ...
We theoretically investigate Coulomb drag in a system of two parallel monolayers of graphene. Using ...
The aim of this work is to compare, in monolayer graphene, solutions of the electron Boltzmann equat...
Semi-classical hydrodynamic models for charge transport in graphene have been presented. They are de...
We numerically study the thermoelectric and thermal transport in ABA-stacked trilayer graphene in th...
In this thesis, we investigate charge transport in graphene. Graphene is one of the most important n...
A semi-classical electrodynamical model is derived to describe the electrical transport along graphe...
The conduction of heat in two dimensions displays a wealth of fascinating phenomena of key relevance...
We develop a general hydrodynamic framework for computing direct current thermal and electric transp...
Based on the recently developed picture of an electronic ideal relativistic fluid at the Dirac point...
We demonstrate the possibility of turbulent flow of electrons in graphene in the hydrodynamic region...
The presence of twist angles between layers of two-dimensional materials has a profound impact on th...