From DFT to machine learning: recent approaches to materials science–a review
Recent advances in experimental and computational methods are increasing the quantity
and complexity of generated data. This massive amount of raw data needs to be stored and …
and complexity of generated data. This massive amount of raw data needs to be stored and …
Recent advances, properties, fabrication and opportunities in two-dimensional materials for their potential sustainable applications
Abstract Elemental two-dimensional (2D) materials, characterized by unique chemical,
physical, and electrical characteristics, now offer intriguing energy and catalysis application …
physical, and electrical characteristics, now offer intriguing energy and catalysis application …
The Rashba scale: Emergence of band anti-crossing as a design principle for materials with large Rashba coefficient
The spin-orbit-induced spin splitting of energy bands in low-symmetry compounds (the
Rashba effect) has a long-standing relevance to spintronic applications and the fundamental …
Rashba effect) has a long-standing relevance to spintronic applications and the fundamental …
Enhancement of the thermoelectric power factor in monolayer PbBiI: staggered exchange field effect
The unique features of the monolayer PbBiI originate from the gapped and gapless states
protected by the time-reversal symmetry. These states appear with the angular momenta …
protected by the time-reversal symmetry. These states appear with the angular momenta …
Superconductivity in two-dimensional systems with unconventional Rashba bands
R Wang, J Li, X Huang, L Wang, R Song, N Hao - Physical Review B, 2024 - APS
In two-dimensional systems with Rashba spin-orbit coupling, it is well known that
superconductivity can exhibit mixed spin-singlet and spin-triplet parity, with the d vector of …
superconductivity can exhibit mixed spin-singlet and spin-triplet parity, with the d vector of …
Structural and electronic properties of realistic two-dimensional amorphous topological insulators
We investigate the structure and electronic spectra properties of two-dimensional
amorphous bismuthene structures and show that these systems are topological insulators …
amorphous bismuthene structures and show that these systems are topological insulators …
Chemical functionalization of SnAs monolayer: a first-principles study of SnAsX (X= Cl, Br, and I) monolayers
Chemical functionalization is one of the effective methods to tune the electronic properties of
two-dimensional (2D) nanostructures. In this paper, we study the structural, electronic …
two-dimensional (2D) nanostructures. In this paper, we study the structural, electronic …
High-throughput inverse design and Bayesian optimization of functionalities: spin splitting in two-dimensional compounds
The development of spintronic devices demands the existence of materials with some kind
of spin splitting (SS). In this Data Descriptor, we build a database of ab initio calculated SS in …
of spin splitting (SS). In this Data Descriptor, we build a database of ab initio calculated SS in …
Theoretical insight of origin of Rashba–Dresselhaus effect in tetragonal and rhombohedral phases of BiFeO 3
The inclusion of the spin–orbit coupling effect in ferroelectric materials with non-
centrosymmetry leads to intriguing properties for spintronic applications. In the present work …
centrosymmetry leads to intriguing properties for spintronic applications. In the present work …
Design of spin-orbital texture in ferromagnetic/topological insulator interfaces
Spin-orbital texture in topological insulators due to the spin locking with the electron
momentum play an important role in spintronic phenomena that arise from the interplay …
momentum play an important role in spintronic phenomena that arise from the interplay …