Ferroic phases in two-dimensional materials
Two-dimensional (2D) ferroics, namely ferroelectric, ferromagnetic, and ferroelastic
materials, are attracting rising interest due to their fascinating physical properties and …
materials, are attracting rising interest due to their fascinating physical properties and …
Colloquium: Physical properties of group-IV monochalcogenide monolayers
S Barraza-Lopez, BM Fregoso, JW Villanova… - Reviews of Modern …, 2021 - APS
The state-of-the-art knowledge of ferroelectric and ferroelastic group-IV monochalcogenide
monolayers is surveyed. These semiconductors feature remarkable structural and …
monolayers is surveyed. These semiconductors feature remarkable structural and …
Recent advances in low‐dimensional semiconductor nanomaterials and their applications in high‐performance photodetectors
Low‐dimensional (including two‐dimensional [2D], one‐dimensional [1D], and zero‐
dimensional [0D]) semiconductor materials have great potential in electronic/optoelectronic …
dimensional [0D]) semiconductor materials have great potential in electronic/optoelectronic …
Bonding, structure, and mechanical stability of 2D materials: the predictive power of the periodic table
P Hess - Nanoscale Horizons, 2021 - pubs.rsc.org
This tutorial review describes the ongoing effort to convert main-group elements of the
periodic table and their combinations into stable 2D materials, which is sometimes called …
periodic table and their combinations into stable 2D materials, which is sometimes called …
Van der Waals force-induced intralayer ferroelectric-to-antiferroelectric transition via interlayer sliding in bilayer group-IV monochalcogenides
Two-dimensional materials with ferroelectric properties break the size effect of conventional
ferroelectric materials and unlock unprecedented potentials of ferroelectric-related …
ferroelectric materials and unlock unprecedented potentials of ferroelectric-related …
Prediction of 2D IV–VI semiconductors: auxetic materials with direct bandgap and strong optical absorption
Auxetic materials are highly desirable for advanced applications because of their negative
Poisson's ratios, which are rather scarce in two-dimensional materials. Motivated by the …
Poisson's ratios, which are rather scarce in two-dimensional materials. Motivated by the …
Negative Poisson's ratio in puckered two-dimensional materials
B Liu, M Niu, J Fu, Z **, M Lei, R Quhe - Physical Review Materials, 2019 - APS
The experimentally verified negative Poisson's ratio of black phosphorus allows the
extension of the medical and defense applications to the nanoscale regime without any …
extension of the medical and defense applications to the nanoscale regime without any …
δ-SnS: An emerging bidirectional auxetic direct semiconductor with desirable carrier mobility and high-performance catalytic behavior toward the water-splitting …
Q Zhang, X Wang, S Yang - ACS Applied Materials & Interfaces, 2021 - ACS Publications
We propose a novel two-dimensional SnS allotrope (monolayer δ-SnS) based on an auxetic
δ-phosphorene configuration using first-principles calculations. This monolayer appears to …
δ-phosphorene configuration using first-principles calculations. This monolayer appears to …
Penta-SiCN: A highly auxetic monolayer
The negative Poisson's (NPR) ratio in a two-dimensional (2D) material is a counterintuitive
mechanical property that facilitates the development of nanoscale devices with sophisticated …
mechanical property that facilitates the development of nanoscale devices with sophisticated …
A first-principles study of 1D and 2D C60 nanostructures: strain effects on band alignments and carrier mobility
YB Shi, SH Lv, ZF Shao, HK Dong… - Journal of Physics …, 2023 - iopscience.iop.org
A first-principles study of 1D and 2D C60 nanostructures: strain effects on band alignments and
carrier mobility - IOPscience Skip to content IOP Science home Accessibility Help Search …
carrier mobility - IOPscience Skip to content IOP Science home Accessibility Help Search …