Thermal conductivity is one of the most fundamental properties of solid materials. The
thermal conductivity of ideal crystal materials has been widely studied over the past …

The rapid development of synthesis and fabrication techniques has opened up a research
upsurge in two-dimensional (2D) material heterostructures, which have received extensive …

Lead telluride has long been realized as an ideal p‐type thermoelectric material at an
intermediate temperature range; however, its commercial applications are largely restricted …

The diversity of thermal transport properties in carbon nanomaterials enables them to be
used in different thermal fields such as heat dissipation, thermal management, and …

The demands for waste heat energy recovery from industrial production, solar energy, and
electronic devices have resulted in increasing attention being focused on thermoelectric …

Intrinsic thermoelectric properties in biphenylene nanoribbons (BNRs) and effect of lattice
defects are investigated by employing the nonequilibrium Green's function. A comparative …

β‐Graphdiyne (β‐GDY) is a member of 2D graphyne family with zero band gap, and is a
promising material with potential applications in energy storage, organic electronics, etc …

Herein, thermoelectric properties of MoS 2/MoSe 2 lateral and van der Waals
heterostructure are investigated by using density functional theory calculations and non …

Chalcopyrite compound CuGaTe2 is the focus of much research interest due to its high
power factor. However, its high intrinsic lattice thermal conductivity seriously impedes the …

We present an atomistic simulation of thermoelectric properties in cove-edged graphene
nanoribbons (CGNRs) via the nonequilibrium Greenes function. Different from gapless …