Fuqing Duan scite author profile

Two-dimensional Mg 2 C, one of the typical representative MXene materials, is attracting lots of attention due to its outstanding properties. In this study, we find the thermal conductivity of monolayer Mg 2 C is more than 2 orders of magnitude lower than graphene and is even lower than MoS 2 despite the relatively lighter atoms of Mg and C. Based on the comparative analysis with graphene, silicene, and MoS 2 , the underlying mechanism is found lying in the unique arrangement of atoms (lighter atoms in the middle plane) and large electronegativity difference in Mg 2 C. The phonon anharmonicity is strong due to the resonant bonding. In addition, dual band gaps emerge in the phonon dispersion of Mg 2 C, which limit the phonon−phonon scattering and reduce the phonon relaxation time. This study reveals a new mechanism responsible for low thermal conductivity, which would be helpful for designing thermal functional materials and pave the way for applications in thermoelectrics.

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Erratum: Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene [Phys. Rev. B 105, 125406 (2022)]

Duan¹,

Chen²,

Zhang³

2022

Phys. Rev. B

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Efficient modulation of thermal transport in two-dimensional materials for thermal management in device applications

et al. 2023

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Fuqing Duan

Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene

Unique Arrangement of Atoms Leads to Low Thermal Conductivity: A Comparative Study of Monolayer Mg₂C

Erratum: Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene [Phys. Rev. B 105, 125406 (2022)]

Efficient modulation of thermal transport in two-dimensional materials for thermal management in device applications

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Fuqing Duan

Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene

Unique Arrangement of Atoms Leads to Low Thermal Conductivity: A Comparative Study of Monolayer Mg2C

Erratum: Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene [Phys. Rev. B 105, 125406 (2022)]

Efficient modulation of thermal transport in two-dimensional materials for thermal management in device applications

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Resources

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Unique Arrangement of Atoms Leads to Low Thermal Conductivity: A Comparative Study of Monolayer Mg₂C