A new spatial-domain thermoreflectance method to measure a broad range of anisotropic in-plane thermal conductivity
In-plane thermal conductivities of small-scale samples are hard to measure, especially for
the lowly conductive ones and those lacking in-plane symmetry (ie, transversely anisotropic …
the lowly conductive ones and those lacking in-plane symmetry (ie, transversely anisotropic …
Simultaneous measurement of anisotropic thermal conductivity and thermal boundary conductance of 2-dimensional materials
The rapidly increasing number of 2-dimensional (2D) materials that have been isolated or
synthesized provides an enormous opportunity to realize new device functionalities …
synthesized provides an enormous opportunity to realize new device functionalities …
Role of the electron–phonon coupling in tuning the thermal boundary conductance at metal-dielectric interfaces by inserting ultrathin metal interlayers
Varying the thermal boundary conductance at metal-dielectric interfaces is of great
importance for highly integrated electronic structures such as electronic, thermoelectric and …
importance for highly integrated electronic structures such as electronic, thermoelectric and …
Role of vibrational properties and electron–phonon coupling on thermal transport across metal-dielectric interfaces with ultrathin metallic interlayers
SM Oommen, L Fallarino, J Heinze… - Journal of Physics …, 2022 - iopscience.iop.org
We systematically analyze the influence of 5 nm thick metal interlayers inserted at the
interface of several sets of different metal-dielectric systems to determine the parameters that …
interface of several sets of different metal-dielectric systems to determine the parameters that …
Extreme in-plane thermal conductivity anisotropy in Rhenium-based dichalcogenides
Anisotropies in thermal conductivity are important for thermal management in a variety of
applications, but also provide insight on the physics of nanoscale heat transfer. As materials …
applications, but also provide insight on the physics of nanoscale heat transfer. As materials …
Nondiffusive Transport and Anisotropic Thermal Conductivity in High-Density Pt/Co Superlattices
M Shahzadeh, O Andriyevska, R Salikhov… - ACS Applied …, 2021 - ACS Publications
Despite the numerous reports over the last two decades dedicated to the study of interfacial
thermal transport, physics of thermal transport across nanoscale metallic multilayers is less …
thermal transport, physics of thermal transport across nanoscale metallic multilayers is less …
[PDF][PDF] Thermoreflectance Measurements of Non-Diffusive Transport In Bulk And Nanoscale Materials
M Shahzadeh - 2021 - yorkspace.library.yorku.ca
Following the trend in miniaturization of devices to the sub-micron scale, thermal
management has become increasingly important to device operation. Thermal management …
management has become increasingly important to device operation. Thermal management …
[PDF][PDF] Development of a Frequency-domain Thermoreflectance Instrument for Thermal Characterization of Diamond-based Composites
N Poopakdee - 2021 - research-information.bris.ac.uk
High-performance, high-reliability microelectronic devices are essential for space
applications. Thermal packaging such as metal-diamond composite is required for …
applications. Thermal packaging such as metal-diamond composite is required for …
[PDF][PDF] Investigation of Anisotropic Heat Transport Through Frequency Domain Thermoreflectance Technique
M Rahman - 2019 - yorkspace.library.yorku.ca
Thermophysical properties of thin film materials are of great importance for thermal
management in devices including transistors, lasers, sensors, and plasmonic structures. In …
management in devices including transistors, lasers, sensors, and plasmonic structures. In …