Anomalous Temperature Induced Transition and Convergence of Thermal Conductivity in Germanene Monolayer

Abstract

We report an anomalous temperature-induced transition in thermal conductivity in germanene monolayer around a critical temperature Tc = 350 \, K. Equilibrium molecular dynamics simulations reveal a transition from T-2 scaling below Tc to T-1/2 above, contrasting with conventional T-1 behavior. This anomalous scaling correlates with the long-scale characteristic timescale τ2 obtained from double exponential fitting of the heat current autocorrelation function. Phonon mode analysis using normal mode decomposition indicates that a redshift in ZO phonons reduces the acoustic-optical phonon gap, causing an overlap, enhances the phonon-phonon scattering, driving the anomalous scaling behavior. Moreover, nonequilibrium simulations find a convergent thermal conductivity of germanene with sample size, in agreement with mode coupling theory, owing to the high scattering of ZA phonons due to the inherent buckling of germanene.

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