Understanding the complexity in bridging thermal and electrocatalytic methanation of CO 2
The selective methanation of CO2 is an important research area to meet the net-zero
emission targets. Furthermore, it is crucial to develop solutions to achieve carbon neutrality …
emission targets. Furthermore, it is crucial to develop solutions to achieve carbon neutrality …
Thermal energy transport in oxide nuclear fuel
To efficiently capture the energy of the nuclear bond, advanced nuclear reactor concepts
seek solid fuels that must withstand unprecedented temperature and radiation extremes. In …
seek solid fuels that must withstand unprecedented temperature and radiation extremes. In …
Thermal Transport across Ion-Cut Monocrystalline β-Ga2O3 Thin Films and Bonded β-Ga2O3–SiC Interfaces
The ultrawide band gap, high breakdown electric field, and large-area affordable substrates
make β-Ga2O3 promising for applications of next-generation power electronics, while its …
make β-Ga2O3 promising for applications of next-generation power electronics, while its …
Thermophysical and mechanical properties of novel high‐entropy metal nitride‐carbides
In this work, a novel (Hf0. 2Zr0. 2Ta0. 2Nb0. 2Ti0. 2)(N0. 5C0. 5) high‐entropy nitride‐
carbide (HENC‐1) with multi‐cationic and‐anionic sublattice structure was reported and …
carbide (HENC‐1) with multi‐cationic and‐anionic sublattice structure was reported and …
Spatially resolved thermoreflectance techniques for thermal conductivity measurements from the nanoscale to the mesoscale
Thermoreflectance techniques, namely, time-and frequency-domain thermoreflectance
(TDTR and FDTR, respectively), are ubiquitously used for the thermophysical …
(TDTR and FDTR, respectively), are ubiquitously used for the thermophysical …
Thermal conductance enhanced via inelastic phonon transport by atomic vacancies at Cu/Si interfaces
Understanding and controlling heat transfer across interfaces has become an important
issue for the performance of micro-and nanoscale electronics, as well as achieving a high …
issue for the performance of micro-and nanoscale electronics, as well as achieving a high …
Orders of magnitude reduction in the thermal conductivity of polycrystalline diamond through carbon, nitrogen, and oxygen ion implantation
Despite the exceptional thermal and mechanical functionalities of diamond, its superlative
properties are highly subject to the presence of point defects, dislocations, and interfaces. In …
properties are highly subject to the presence of point defects, dislocations, and interfaces. In …
Orientation independent heat transport characteristics of diamond/copper interface with ion beam bombardment
K Yang, Z Zhang, H Zhao, B Yang, B Zhong, N Chen… - Acta Materialia, 2021 - Elsevier
Owing to high thermal conductivity (k) and appropriate coefficient of thermal expansion
(CTE), Diamond/copper (Dia/Cu) composites have attracted extensive attention as …
(CTE), Diamond/copper (Dia/Cu) composites have attracted extensive attention as …
[HTML][HTML] Measuring sub-surface spatially varying thermal conductivity of silicon implanted with krypton
The thermal properties of semiconductors following exposure to ion irradiation are of great
interest for the cooling of electronic devices; however, gradients in composition and structure …
interest for the cooling of electronic devices; however, gradients in composition and structure …
[HTML][HTML] A new model for the effective thermal conductivity of polycrystalline solids
We introduce a novel model for the effective thermal conductivity of polycrystalline solids
based on the thin-interface description of grain boundaries (GBs). In contrast to existing …
based on the thin-interface description of grain boundaries (GBs). In contrast to existing …