-
Relative Abundance of Z2 Topological Order in Exfoliable Two-Dimensional Insu...
Quantum spin Hall insulators (QSHIs) make up a class of two-dimensional materials with a finite electronic band gap in the bulk and gapless helical edge states. Some of the... -
2‐D materials for ultrascaled field-effect transistors: one hundred candidate...
Due to their remarkable properties, single-layer 2-D materials appear as excellent candidates to extend Moore’s scaling law beyond the currently manufactured silicon FinFETs.... -
Valley-Engineering Mobilities in Two-Dimensional Materials
Two-dimensional materials are emerging as a promising platform for ultrathin channels in field-effect transistors. To this aim, novel high-mobility semiconductors need to be... -
Valley-Engineering Mobilities in Two-Dimensional Materials
Two-dimensional materials are emerging as a promising platform for ultrathin channels in field-effect transistors. To this aim, novel high-mobility semiconductors need to be... -
Profiling novel high-conductivity 2D semiconductors
When complex mechanisms are involved, pinpointing high-performance materials within large databases is a major challenge in materials discovery. We focus here on phonon-limited... -
General invariance and equilibrium conditions for lattice dynamics in 1D, 2D,...
The long-wavelength behavior of vibrational modes plays a central role in carrier transport, phonon-assisted optical properties, superconductivity, and thermomechanical and... -
Prediction of phonon-mediated superconductivity with high critical temperatur...
Two-dimensional superconductors attract great interest both for their fundamental physics and for their potential applications, especially in the rapidly growing field of... -
Relative abundance of Z2 topological order in exfoliable two-dimensional insu...
Quantum spin Hall insulators (QSHIs) make up a class of two-dimensional materials with a finite electronic band gap in the bulk and gapless helical edge states. Some of the... -
Long-range electrostatic contribution to the electron-phonon couplings and mo...
Charge transport plays a crucial role in manifold potential applications of two-dimensional materials, including field effect transistors, solar cells, and transparent... -
Phonon self-energy corrections: To screen, or not to screen
First-principles calculations of phonons are often based on the adiabatic approximation, and Brillouin-zone samplings that might not always be sufficient to capture the... -
Phonon self-energy corrections: To screen, or not to screen
First-principles calculations of phonons are often based on the adiabatic approximation and on Brillouin-zone samplings that might not always be sufficient to capture the... -
Phonon self-energy corrections: To screen, or not to screen
First-principles calculations of phonons are often based on the adiabatic approximation and on Brillouin-zone samplings that might not always be sufficient to capture the... -
A complementary screening for quantum spin Hall insulators in 2D exfoliable m...
Quantum spin Hall insulators (QSHIs) are a class of topological materials that has been extensively studied during the past decade. One of their distinctive features is the... -
On-site and inter-site Hubbard corrections in magnetic monolayers: The case o...
Hubbard-corrected density-functional theory has proven to be successful in addressing self-interaction errors in 3D magnetic materials. However, the effectiveness of this... -
The Materials Cloud 2D database (MC2D)
Two-dimensional (2D) materials are among the most promising candidates for beyond silicon electronic and optoelectronic applications. Recently, their recognized importance,... -
Deterministic grayscale nanotopography to engineer mobilities in strained MoS...
Field-effect transistors (FETs) based on two-dimensional materials (2DMs) with atomically thin channels have emerged as a promising platform for beyond-silicon electronics....
