Polymorphism and ferroelectricity in indium (III) selenide
Two-dimensional indium (III) selenide (In2Se3) is characterized by rich polymorphism and
offers the prospect of overcoming thickness-related depolarization effects in conventional …
offers the prospect of overcoming thickness-related depolarization effects in conventional …
Two-Dimensional In2X2X′ (X and X′ = S, Se, and Te) Monolayers with an Intrinsic Electric Field for High-Performance Photocatalytic and Piezoelectric …
P Wang, H Liu, Y Zong, H Wen, JB Xia… - ACS Applied Materials …, 2021 - ACS Publications
Two-dimensional (2D) materials with excellent photocatalytic properties and unique
piezoelectric response have attracted great attention. However, these characters are rare for …
piezoelectric response have attracted great attention. However, these characters are rare for …
Structural, electronic, and transport properties of quintuple atomic Janus monolayers ( O, S, Se, Te): First-principles predictions
Two-dimensional Janus structures with vertical intrinsic electric fields exhibit many
interesting physical properties that are not possible with symmetric materials. We …
interesting physical properties that are not possible with symmetric materials. We …
Spin-gapless semiconductors and quantum anomalous hall effects of tetraazanaphthotetraphene-based two-dimensional transition-metal organic frameworks on …
The two-dimensional metal–organic framework (2D MOF) has potential applications in
spintronics and catalytics due to the tunable structure, high crystallinity, and porosity …
spintronics and catalytics due to the tunable structure, high crystallinity, and porosity …
A strain induced polar metal phase in a ferromagnetic Fe 3 GeTe 2 monolayer
The electronic structure and magnetic properties of the ferromagnetic Fe3GeTe2 monolayer
have been extensively studied in recent years. Experimentally, external strain can be …
have been extensively studied in recent years. Experimentally, external strain can be …
Perspective on computational design of two-dimensional materials with robust multiferroic coupling
Two-dimensional (2D) multiferroic materials with robust magnetoelectric coupling and
controllable topological solitons (such as skyrmions) are promising candidates for advanced …
controllable topological solitons (such as skyrmions) are promising candidates for advanced …
Half-metallicity and magnetic anisotropy in transition-metal-atom-doped graphitic germanium carbide (g-GeC) monolayers
Ferromagnetic half-metallic materials with wide half-metallic gap, large magnetic anisotropy
energy, and high Curie temperature have attracted much attention for their potential …
energy, and high Curie temperature have attracted much attention for their potential …
Switchable topological phase transition and nonlinear optical properties in a monolayer
The topological phase transitions (TPTs) in three-dimensional compounds have attracted
great attention in both condensed-matter physics and applied physics. Compared to the TPT …
great attention in both condensed-matter physics and applied physics. Compared to the TPT …
First-principles prediction of polar half-metallicity and out-of-plane piezoelectricity in two-dimensional quintuple layered cobalt selenide
Polar half-metals, possessing both polarity and half-metallicity, may have potential as media
in novel spintronic quantum devices, but they have never been reported in the two …
in novel spintronic quantum devices, but they have never been reported in the two …
Chiral Magnetic Quasiparticles with Zero Topological Charge in 2D Lattice
Chiral quasiparticles, such as magnetic skyrmions, are fundamental phenomena in the field
of condensed‐matter physics. So far, several chiral quasiparticles with nontrivial topology …
of condensed‐matter physics. So far, several chiral quasiparticles with nontrivial topology …