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Temperature dependence of the electronic structure of semiconductors and insu...
The renormalization of electronic eigenenergies due to electron-phonon coupling (temperature dependence and zero-point motion effect) is sizable in many materials with light... -
Origin of low carrier mobilities in halide perovskites
Halide perovskites constitute a new class of semiconductors that hold promise for low-cost solar cells and optoelectronics. One key property of these materials is the electron... -
Benchmarking the GW100 dataset with the Yambo code by means of G₀W₀ approxima...
In this work we provide the results for IP and EA of all the 100 molecules of the set as computed within the Yambo code. In this way, we enlarge the GW100 benchmark considering... -
Fully ab-initio electronic structure of Ca₂RuO₄
The reliable ab-initio description of strongly correlated materials is a long-sought capability in condensed matter physics. The GW+EDMFT method is a promising scheme, which... -
Dielectric response and excitations of hydrogenated free-standing graphene
The conversion of semimetallic suspended graphene (Gr) to a large-gap semiconducting phase is realized by controlled adsorption of atomic hydrogen (deuterium) on free-standing... -
First-principles and experimental characterization of the electronic and opti...
Doped alkaline-earth chalcogenides are interesting photoluminescent materials for opto-electronic applications. It is crucial to have an extended knowledge about the undoped... -
Highly anisotropic interlayer magnetoresitance in ZrSiS nodal-line Dirac semi...
In this work, we investigate the angle-dependent magnetoresistance (AMR) of the layered nodal-line Dirac semimetal ZrSiS for the in-plane and out-of-plane current directions.... -
Dielectric response and excitations of hydrogenated free-standing graphene
The conversion of semimetallic suspended graphene (Gr) to a large-gap semiconducting phase is realized by controlled adsorption of atomic hydrogen (deuterium) on free-standing... -
Ab initio real-time quantum dynamics of charge carriers in momentum space
Application of the nonadiabatic molecular dynamics (NAMD) approach is severely limited to studying carrier dynamics in the momentum space, since a supercell is required to... -
Temperature dependence of electronic eigenenergies in the adiabatic harmonic ...
The renormalization of electronic eigenenergies due to electron-phonon interactions (temperature dependence and zero-point motion effect) is important in many materials. We... -
Gap opening in double-sided highly hydrogenated free-standing graphene
Conversion of graphene into pure free-standing graphane — where each C atom is sp³ bound to a hydrogen atom — has not been achieved so far, in spite of numerous experimental... -
Ab initio real-time quantum dynamics of charge carriers in momentum space
Application of the nonadiabatic molecular dynamics (NAMD) approach is severely limited to studying carrier dynamics in the momentum space, since a supercell is required to... -
Structural, electronic, elastic, power, and transport properties of β-Ga<sub>...
We investigate the structural, electronic, vibrational, power, and transport properties of the β allotrope of Ga2O3 from first principles. We find phonon frequencies and elastic... -
Mapping uncharted territory in ice from zeolite networks to ice structures
We report a large-scale density-functional-theory study of the configuration space of water ice. We geometry optimise 74,963 ice structures, which are selected and constructed... -
First principles correction scheme for linear-response time-dependent density...
Linear-response time-dependent density functional theory (LR-TDDFT) for core level spectroscopy using standard local functionals suffers from self-interaction error and a lack... -
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... -
Mott versus hybridization gap in the low-temperature phase of 1T-TaS₂
We address the long-standing problem of the ground state of 1T-TaS₂ by computing the correlated electronic structure of stacked bilayers using the GW+EDMFT method. Depending on... -
Semi-local and hybrid functional DFT data for thermalised snapshots of polymo...
Structure prediction for molecular crystals is a longstanding challenge, as often minuscule free energy differences between polymorphs are sensitively affected by the...