From two‐dimensional materials to polymer nanocomposites with emerging multifunctional applications: a critical review
Abstract 2D materials are a very up‐and‐coming class of additives in the field of polymer
composites due to their versatility and exceptional intrinsic properties. This enables …
composites due to their versatility and exceptional intrinsic properties. This enables …
Atomic-level design rules of metal-cation-doped catalysts: manipulating electron affinity/ionic radius of doped cations for accelerating sulfur redox kinetics in Li–S …
Although metal-cation do** into transition-metal dichalcogenides (TMDCs) has been
investigated for promoting stepwise sulfur redox in lithium–sulfur batteries (LSBs), a rational …
investigated for promoting stepwise sulfur redox in lithium–sulfur batteries (LSBs), a rational …
Enhanced Second-Order Nonlinearities at Strained Ultrasharp Zigzag Edges in Multilayer MoS2
Transition metal dichalcogenide (TMD) materials attract significant research attention thanks
to their exceptional excitonic and optical properties. In this work, we analyze the formation of …
to their exceptional excitonic and optical properties. In this work, we analyze the formation of …
Prediction and Characterization of Two-Dimensional Zn2VN3
AA Kistanov, SA Shcherbinin… - The Journal of …, 2023 - ACS Publications
A two-dimensional (2D) monolayer of a novel ternary nitride Zn2VN3 is computationally
designed, and its dynamical and thermal stability is demonstrated. A synthesis strategy is …
designed, and its dynamical and thermal stability is demonstrated. A synthesis strategy is …
Manganese diluted TlInS2 layered semiconductor: Optical, electronic and magnetic properties
Abstract Manganese–doped TlInS 2 (TlInS 2+ Mn) layered semiconductors with different
do** concentrations of about 0.1 and 0.3 at. percent were investigated. Photo–induced …
do** concentrations of about 0.1 and 0.3 at. percent were investigated. Photo–induced …
Study on the effects of anisotropic effective mass on electronic properties, magnetization and persistent current in semiconductor quantum ring with conical geometry
FAG de Lira, LFC Pereira, EO Silva - Physica E: Low-dimensional Systems …, 2024 - Elsevier
We study a 2D mesoscopic ring with an anisotropic effective mass considering surface
quantum confinement effects. Consider that the ring is defined on the surface of a cone …
quantum confinement effects. Consider that the ring is defined on the surface of a cone …
Unpinned Dirac-Fermions in Carbon–Phosphorus–Arsenic-Based Ternary Monolayers
Graphene-like two-dimensional monolayers show many interesting and novel properties
that make them potential candidates for applications in the nanotechnology. In this study, we …
that make them potential candidates for applications in the nanotechnology. In this study, we …
Comparative study of quantum emitter fabrication in wide bandgap materials using localized electron irradiation
Quantum light sources are crucial foundational components for various quantum technology
applications. With the rapid development of quantum technology, there has been a growing …
applications. With the rapid development of quantum technology, there has been a growing …
Effects on the electronic properties of multilayer phosphorene due to periodic arrays of vacancies: Band unfolding formalism
We investigate the effects of atomic vacancies on the band structure of multilayer
phosphorene using a combination of the tight-binding model and the band unfolding …
phosphorene using a combination of the tight-binding model and the band unfolding …
[HTML][HTML] Electric-field-induced surface modification in TlGaSe2 layered semiconductor: Capacitive effect caused by electromigration of native defects
ES Olcay, A Sönmez, E Okumuş… - Journal of Applied …, 2024 - pubs.aip.org
This paper reports the changes in morphology and topographic roughness on the surface of
a pristine TlGaS e 2 layered crystal caused by an external electric field applied …
a pristine TlGaS e 2 layered crystal caused by an external electric field applied …