Pb10− x Cu x (PO4) 6O: a Mott or charge transfer insulator in need of further doping for (super) conductivity
L Si, M Wallerberger, A Smolyanyuk… - Journal of Physics …, 2023 - iopscience.iop.org
We briefly review the status quo of research on the putative superconductor Pb 9 Cu (PO 4)
6 O also known as LK-99. Further, we provide ab initio derived tight-binding parameters for a …
6 O also known as LK-99. Further, we provide ab initio derived tight-binding parameters for a …
Weak effects of electron-phonon interactions on the lattice thermal conductivity of wurtzite GaN with high electron concentrations
Wurtzite gallium nitride (GaN) has great potential for high-frequency and high-power
applications due to its excellent electrical and thermal transport properties. However …
applications due to its excellent electrical and thermal transport properties. However …
Unexpected weak effects of phonon-electron interactions on the lattice thermal conductivity of high-concentration n-type GaN
Gallium nitride (GaN) has great potential for high-frequency and high-power applications
due to its excellent electrical and thermal transport properties. However, enhancing the …
due to its excellent electrical and thermal transport properties. However, enhancing the …
Multitemperature Modeling of Thermal Transport across a Au–GaN Interface from Ab Initio Calculations
With device dimensions shrinking toward nanoscale sizes, an accurate understanding and
modeling of the thermal energy transfer mechanisms at metal–nonmetal interfaces becomes …
modeling of the thermal energy transfer mechanisms at metal–nonmetal interfaces becomes …
Diverse Responses in Lattice Thermal Conductivity of -type/-type Semiconductors Driven by Asymmetric Electron-Phonon Interactions
Accurately assessing the impact of electron-phonon interaction (EPI) on the lattice thermal
conductivity of semiconductors is crucial for the thermal management of electronic devices …
conductivity of semiconductors is crucial for the thermal management of electronic devices …
Phonon Dominated Thermal Transport in Metallic Niobium Diselenide from First Principles Calculations
Niobium diselenide (NbSe2) is a layered transition metal dichalcogenide material which
possesses unique electrical and superconducting properties for future nanodevices. While …
possesses unique electrical and superconducting properties for future nanodevices. While …