A roadmap review of thermally conductive polymer composites: critical factors, progress, and prospects
Recently, the need for miniaturization and high integration have steered a strong technical
wave in developing (micro‐) electronic devices. However, excessive amounts of heat may …
wave in developing (micro‐) electronic devices. However, excessive amounts of heat may …
Impact of electron-phonon interaction on thermal transport: A review
ABSTRACT A thorough understanding of the microscopic picture of heat conduction in
solids is critical to a broad range of applications, from thermal management of …
solids is critical to a broad range of applications, from thermal management of …
Understanding and controlling photothermal responses in MXenes
MXenes have the potential for efficient light-to-heat conversion in photothermal applications.
To effectively utilize MXenes in such applications, it is important to understand the …
To effectively utilize MXenes in such applications, it is important to understand the …
Simultaneous enhancement of strength and conductivity via self-assembled lamellar architecture
Simultaneous improvement of strength and conductivity is urgently demanded but
challenging for bimetallic materials. Here we show by creating a self-assembled lamellar …
challenging for bimetallic materials. Here we show by creating a self-assembled lamellar …
Ultrahigh Electron Thermal Conductivity in T‐Graphene, Biphenylene, and Net‐Graphene
Although isolated nonhexagonal carbon rings in graphene are associated with strain
relaxation and curvature, dense and ordered arrangements of four‐, five‐, and eight …
relaxation and curvature, dense and ordered arrangements of four‐, five‐, and eight …
Phase-dependent microstructure modification leads to high thermoelectric performance in n-type layered SnSe2
Y Wei, J Li, D Zhang, B Zhang, Z Zhou, G Han, G Wang… - Acta Materialia, 2024 - Elsevier
Microstructure control is crucial for thermoelectrics since it is intimately related to the
scattering mechanism of both electrons and phonons. Herein, we propose a new strategy to …
scattering mechanism of both electrons and phonons. Herein, we propose a new strategy to …
High and Anomalous Thermal Conductivity in Monolayer MSi2Z4 Semiconductors
The lattice thermal conductivity (κ) of a newly synthesized two-dimensional (2D) MoSi2N4
family and its associated abnormality are anatomized by ab initio phonon Boltzmann …
family and its associated abnormality are anatomized by ab initio phonon Boltzmann …
Thermal transport properties of GaN with biaxial strain and electron-phonon coupling
Strain inevitably exists in practical GaN-based devices due to the mismatch of lattice
structure and thermal expansion brought by heteroepitaxial growth and band engineering …
structure and thermal expansion brought by heteroepitaxial growth and band engineering …
High-throughput study and machine learning on MAX and MAB phases: new materials and fingerprints of superior lattice thermal conductivities
S Li, Z Yang, R Khaledialidusti, S Lin, J Yu, M Khazaei… - Acta Materialia, 2023 - Elsevier
The ternary ceramic MAX and recently emerging MAB phases have exhibited a combination
of properties of metals and ceramics, excellent mechanical properties along with high …
of properties of metals and ceramics, excellent mechanical properties along with high …
Anomalous thermal transport driven by electron–phonon coupling in 2D semiconductor h‐BP
The electron–phonon coupling (EPC) in semiconductors is typically much weaker than
phonon–phonon scattering and its effect on lattice thermal conductivity κl has long been …
phonon–phonon scattering and its effect on lattice thermal conductivity κl has long been …