A review of experimental and computational advances in thermal boundary conductance and nanoscale thermal transport across solid interfaces
A Giri, PE Hopkins - Advanced Functional Materials, 2020 - Wiley Online Library
Interfacial thermal resistance is the primary impediment to heat flow in materials and devices
as characteristic lengths become comparable to the mean‐free paths of the energy carriers …
as characteristic lengths become comparable to the mean‐free paths of the energy carriers …
Thermal transport in 2D semiconductors—considerations for device applications
The discovery of graphene has stimulated the search for and investigations into other 2D
materials because of the rich physics and unusual properties exhibited by many of these …
materials because of the rich physics and unusual properties exhibited by many of these …
Ultrahigh thermal isolation across heterogeneously layered two-dimensional materials
Heterogeneous integration of nanomaterials has enabled advanced electronics and
photonics applications. However, similar progress has been challenging for thermal …
photonics applications. However, similar progress has been challenging for thermal …
Applications and impacts of nanoscale thermal transport in electronics packaging
RJ Warzoha, AA Wilson… - Journal of …, 2021 - asmedigitalcollection.asme.org
This review introduces relevant nanoscale thermal transport processes that impact thermal
abatement in power electronics applications. Specifically, we highlight the importance of …
abatement in power electronics applications. Specifically, we highlight the importance of …
Ultra‐High Interfacial Thermal Conductance via Double hBN Encapsulation for Efficient Thermal Management of 2D Electronics
Heat dissipation is a major limitation of high‐performance electronics. This is especially
important in emerging nanoelectronic devices consisting of ultra‐thin layers …
important in emerging nanoelectronic devices consisting of ultra‐thin layers …
Thermal transport in two-dimensional heterostructures
XK Chen, YJ Zeng, KQ Chen - Frontiers in Materials, 2020 - frontiersin.org
Heterostructures based on two-dimensional (2D) materials have attracted intense attention
in recent decades due to their unusual and tunable physics/chemical properties, which can …
in recent decades due to their unusual and tunable physics/chemical properties, which can …
High‐Electric‐Field‐Induced Phase Transition and Electrical Breakdown of MoTe2
Abstract 2D molybdenum ditelluride (MoTe2) has recently received significant attention due
to its unique phase transition and ambipolar behavior as well as thickness‐dependent …
to its unique phase transition and ambipolar behavior as well as thickness‐dependent …
Understanding and engineering interfacial thermal conductance of two-dimensional materials
The continuing miniaturization and increasing power density of two-dimensional (2D)
material electronic devices pose a great challenge for effective thermal management, which …
material electronic devices pose a great challenge for effective thermal management, which …
[HTML][HTML] Thermal boundary conductance of two-dimensional MoS2 interfaces
SV Suryavanshi, AJ Gabourie… - Journal of Applied …, 2019 - pubs.aip.org
Understanding the thermal properties of two-dimensional (2D) materials and devices is
essential for thermal management of 2D applications. Here, we perform molecular dynamics …
essential for thermal management of 2D applications. Here, we perform molecular dynamics …
Quantitative analysis of nonequilibrium phonon transport near a nanoscale hotspot
J Xu, Y Hu, H Bao - Physical Review Applied, 2023 - APS
Understanding thermal transport by phonons near nanoscale hotspots is critical for many
engineering applications, especially for nanoscale thermal measurements and …
engineering applications, especially for nanoscale thermal measurements and …