▎ 摘　　要

Electronic thermal, thermal, conductivity kappa(e) e is investigated, using Boltzmann transport equation approach, in a suspended and supported bilayer graphene (BLG) as a function of temperature and electron concentration. The electron scattering due to screened charged impurity, short-range disorder and acoustic phonon via deformation potential are considered for both suspended and supported BLG. Additionally, scattering due to surface polar phonons, is considered in supported BLG. In suspended BLG, calculated kappa(e) is compared with the experimental data leaving the phonon thermal conductivity. It is emphasized that kappa(e) is important in samples with very high electron concentration and reduced phonon thermal conductivity. ice is found to be about two times smaller in supported BLG compared to that in suspended BLG. With the reduced extrinsic disorders, in principle, the intrinsic scattering by acoustic phonons can set a fundamental limit on possible intrinsic kappa(e). (C) 2012 Elsevier B.V. All rights reserved.