Pentagon-based 2D materials: Classification, properties and applications
Y Shen, Q Wang - Physics Reports, 2022 - Elsevier
Abstract Since penta-graphene (PG), a two-dimensional (2D) carbon allotrope exclusively
composed of five-membered rings, was proposed in 2015, a great deal of effort has been …
composed of five-membered rings, was proposed in 2015, a great deal of effort has been …
2D ultrawide bandgap semiconductors: odyssey and challenges
Abstract 2D ultrawide bandgap (UWBG) semiconductors have aroused increasing interest in
the field of high‐power transparent electronic devices, deep‐ultraviolet photodetectors …
the field of high‐power transparent electronic devices, deep‐ultraviolet photodetectors …
Glass-like Transport Dominates Ultralow Lattice Thermal Conductivity in Modular Crystalline Bi4O4SeCl2
Crystalline Bi4O4SeCl2 exhibits record-low 0.1 W/mK lattice thermal conductivity (κ L), but
the underlying transport mechanism is not yet understood. Using a theoretical framework …
the underlying transport mechanism is not yet understood. Using a theoretical framework …
Ultrahigh Electron Thermal Conductivity in T‐Graphene, Biphenylene, and Net‐Graphene
Although isolated nonhexagonal carbon rings in graphene are associated with strain
relaxation and curvature, dense and ordered arrangements of four‐, five‐, and eight …
relaxation and curvature, dense and ordered arrangements of four‐, five‐, and eight …
Electronic and phononic origins of BaSO4 as an ultra-efficient radiative cooling paint pigment
Radiative cooling has recently revived because of its significant potential for saving energy
and combating climate change. Several ultra-efficient particle-matrix cooling …
and combating climate change. Several ultra-efficient particle-matrix cooling …
Four-phonon scattering effect and two-channel thermal transport in two-dimensional paraelectric SnSe
In recent years, increased attention has been paid to the study of four-phonon interactions
and diffusion transport in three-dimensional (3D) thermoelectric materials because they play …
and diffusion transport in three-dimensional (3D) thermoelectric materials because they play …
Low lattice thermal conductivity of two-dimensional monolayers of BxN (x= 2, 3, and 5) induced by complex bonding networks: A comparative study with h-BN
It is well known that different bonding networks could bring a wide variety of physical
properties to the materials although they hold analogous element and structure features. In …
properties to the materials although they hold analogous element and structure features. In …
Material strategies for function enhancement in plasmonic architectures
Plasmonic materials are promising for applications in enhanced sensing, energy, and
advanced optical communications. These applications, however, often require chemical and …
advanced optical communications. These applications, however, often require chemical and …
Effects of thermal expansion and four-phonon interactions on the lattice thermal conductivity of the negative thermal expansion material
This work systematically investigates the lattice dynamics and phonon thermal transport
behavior of the typical negative thermal expansion (NTE) material, cubic ScF 3. By …
behavior of the typical negative thermal expansion (NTE) material, cubic ScF 3. By …
Four-phonon and electron–phonon scattering effects on thermal properties in two-dimensional 2H-TaS 2
Thermal transport characteristics of monolayer trigonal prismatic tantalum disulfide (2H-
TaS2) are investigated using first-principles calculations combined with the Boltzmann …
TaS2) are investigated using first-principles calculations combined with the Boltzmann …