Bonding‐Enhanced Interfacial Thermal Transport: Mechanisms, Materials, and Applications
Rapid advancements in nanotechnologies for energy conversion and transport applications
urgently require a further understanding of interfacial thermal transport and enhancement of …
urgently require a further understanding of interfacial thermal transport and enhancement of …
Heat conduction of electrons and phonons in thermal interface materials
The heat conduction of thermal interface materials (TIMs) is derived from the transport of
electrons and phonons in the materials. Investigation on the thermal transport of electrons …
electrons and phonons in the materials. Investigation on the thermal transport of electrons …
Anisotropic Thermal Conductivity of Crystalline Layered SnSe2
The degree of thermal anisotropy affects critically key device-relevant properties of layered
two-dimensional materials. Here, we systematically study the in-plane and cross-plane …
two-dimensional materials. Here, we systematically study the in-plane and cross-plane …
Phonon transport across GaN/AlN interface: Interfacial phonon modes and phonon local non-equilibrium analysis
W Bao, Z Wang, D Tang - International Journal of Heat and Mass Transfer, 2022 - Elsevier
Interfacial thermal conductance (ITC) is of critical importance for GaN-based device
performance. GaN/AlN is a key component in GaN-based devices. Therefore, systematically …
performance. GaN/AlN is a key component in GaN-based devices. Therefore, systematically …
Thickness‐Dependent Thermal Conductivity and Phonon Mean Free Path Distribution in Single‐Crystalline Barium Titanate
Nanosized perovskite ferroelectrics are widely employed in several electromechanical,
photonics, and thermoelectric applications. Scaling of ferroelectric materials entails a severe …
photonics, and thermoelectric applications. Scaling of ferroelectric materials entails a severe …
Intrinsically and extrinsically anisotropic heat transport in bulk materials and nanostructures: A review
The anisotropic heat conduction in solids is attractive for diverse applications such as
thermal management and thermal insulation. With highly anisotropic materials, the heat flow …
thermal management and thermal insulation. With highly anisotropic materials, the heat flow …
Revisiting the reduction of thermal conductivity in nano-to micro-grained bismuth telluride: the importance of grain-boundary thermal resistance
Nanograined bulk alloys based on bismuth telluride (Bi2Te3) are the dominant materials for
room-temperature thermoelectric applications. In numerous studies, existing bulk phonon …
room-temperature thermoelectric applications. In numerous studies, existing bulk phonon …
Effect of crystallinity and thickness on thermal transport in layered PtSe2
We present a comparative investigation of the influence of crystallinity and film thickness on
the acoustic and thermal properties of layered PtSe2 films of varying thickness (1–40 layers) …
the acoustic and thermal properties of layered PtSe2 films of varying thickness (1–40 layers) …
Graphene layer number-dependent heat transport across nickel/graphene/nickel interfaces
J Zhou, K Yang, B Yang, B Zhong, S Yao… - … Applied Materials & …, 2022 - ACS Publications
As a typical two-dimensional material, graphene (Gr) has shown great potential to be used
in thermal management applications due to its ultrahigh in-plane thermal conductivity (k) …
in thermal management applications due to its ultrahigh in-plane thermal conductivity (k) …
Anomalous Correlation between Thermal Conductivity and Elastic Modulus in Two-Dimensional Hybrid Metal Halide Perovskites
Device-level implementation of soft materials for energy conversion and thermal
management demands a comprehensive understanding of their thermal conductivity and …
management demands a comprehensive understanding of their thermal conductivity and …