Borophene as an emerging 2D flatland for biomedical applications: current challenges and future prospects
Recently, two-dimensional (2D)-borophene has emerged as a remarkable translational
nanomaterial substituting its predecessors in the field of biomedical sensors, diagnostic …
nanomaterial substituting its predecessors in the field of biomedical sensors, diagnostic …
Tuning magnetism at the two-dimensional limit: A theoretical perspective
The discovery of two-dimensional (2D) magnetic materials provides an ideal testbed for
manipulating the magnetic properties at the atomically thin and 2D limit. This review gives …
manipulating the magnetic properties at the atomically thin and 2D limit. This review gives …
Freestanding borophene and its hybrids
Borophene, an elemental metallic Dirac material is predicted to have unprecedented
mechanical and electronic character. Need of substrate and ultrahigh vacuum conditions for …
mechanical and electronic character. Need of substrate and ultrahigh vacuum conditions for …
Two-dimensional Weyl nodal-line semimetal in a ferromagnetic monolayer with a high Curie temperature
Nodal-line semimetals in two-dimensional (2D) materials have attracted intense attention
recently. From fundamental physics and spintronic application points of view, high Curie …
recently. From fundamental physics and spintronic application points of view, high Curie …
Reversible hydrogen storage in metal-decorated honeycomb borophene oxide
Two-dimensional (2D) boron-based materials are receiving much attention as H2 storage
media due to the low atomic mass of boron and the stability of decorating alkali metals on …
media due to the low atomic mass of boron and the stability of decorating alkali metals on …
Ferromagnetic hybrid nodal loop and switchable type-I and type-II Weyl fermions in two dimensions
As a novel type of fermionic state, the hybrid nodal loop with the coexistence of both type-I
and type-II band crossings has attracted intense research interest. However, it remains a …
and type-II band crossings has attracted intense research interest. However, it remains a …
[HTML][HTML] Electronic, magnetic, and optical performances of non-metals doped silicon carbide
L Zhang, Z Cui - Frontiers in Chemistry, 2022 - frontiersin.org
The configurations of nine different non-metals doped silicon carbide (NM-SiC) were
structured by using the density functional theory (DFT). The magnetic, electronic, and optical …
structured by using the density functional theory (DFT). The magnetic, electronic, and optical …
Li-decorated B2O as potential candidates for hydrogen storage: a DFT simulations study
F Gao, Y Wei, J Du, G Jiang - International Journal of Hydrogen Energy, 2021 - Elsevier
Abstract Two-dimensional (2D) B 2 O monolayer is considered as a potential hydrogen
storage material owing to its lower mass density and high surface-to-volume ratio. The …
storage material owing to its lower mass density and high surface-to-volume ratio. The …
Two-dimensional PtSe2/hBN vdW heterojunction as photoelectrocatalyst for the solar-driven oxygen evolution reaction: a first principles study
Designing and researching suitable photoelectrocatalyst for water splitting is crucial for the
utilization of renewable and inexhaustible solar energy but remains a huge conundrum …
utilization of renewable and inexhaustible solar energy but remains a huge conundrum …
Two-dimensional topological semimetals
The field of two-dimensional topological semimetals, which emerged at the intersection of
two-dimensional materials and topological materials, has been rapidly developing in recent …
two-dimensional materials and topological materials, has been rapidly developing in recent …