Recent developments in van der Waals antiferromagnetic 2D materials: Synthesis, characterization, and device implementation
Magnetism in two dimensions is one of the most intriguing and alluring phenomena in
condensed matter physics. Atomically thin 2D materials have emerged as a promising …
condensed matter physics. Atomically thin 2D materials have emerged as a promising …
2D materials and heterostructures at extreme pressure
Abstract 2D materials possess wide‐tuning properties ranging from semiconducting and
metallization to superconducting, etc., which are determined by their structure, empowering …
metallization to superconducting, etc., which are determined by their structure, empowering …
Confinement of 1D chain and 2D layered cui modules in k-ina-r frameworks via coordination assembly: structure regulation and semiconductivity tuning
Herein, we present a new series of CuI-based hybrid materials with tunable structures and
semiconducting properties. The CuI inorganic modules can be tailored into a one …
semiconducting properties. The CuI inorganic modules can be tailored into a one …
Two-dimensional semiconductor transition metal based chalcogenide based heterostructures for water splitting applications
Recent research and development is focused in an intensive manner to increase the
efficiency of solar energy conversion into electrical energy via photovoltaics and photo …
efficiency of solar energy conversion into electrical energy via photovoltaics and photo …
Polarized Light‐Emitting Diodes Based on Anisotropic Excitons in Few‐Layer ReS2
An on‐chip polarized light source is desirable in signal processing, optical communication,
and display applications. Layered semiconductors with reduced in‐plane symmetry have …
and display applications. Layered semiconductors with reduced in‐plane symmetry have …
Efficient and layer‐dependent exciton pumping across atomically thin organic–inorganic type‐I heterostructures
The fundamental light–matter interactions in monolayer transition metal dichalcogenides
might be significantly engineered by hybridization with their organic counterparts, enabling …
might be significantly engineered by hybridization with their organic counterparts, enabling …
2D organic single crystals: Synthesis, novel physics, high-performance optoelectronic devices and integration
In the last decade, two-dimensional organic single crystals (2D OSCs), defined as a class of
ultrathin crystals with atomic or molecular level thickness and micrometer-scale-lateral …
ultrathin crystals with atomic or molecular level thickness and micrometer-scale-lateral …
[HTML][HTML] Polarization-dependent optical properties and optoelectronic devices of 2D materials
Z Li, B Xu, D Liang, A Pan - Research, 2020 - spj.science.org
The development of optoelectronic devices requires breakthroughs in new material systems
and novel device mechanisms, and the demand recently changes from the detection of …
and novel device mechanisms, and the demand recently changes from the detection of …
Two-dimensional materials for light emitting applications: Achievement, challenge and future perspectives
Abstract The two-dimensional (2D) materials have been widely developed recently in
material characteristics with advanced optical and electrical properties, and they have been …
material characteristics with advanced optical and electrical properties, and they have been …
Complete-series excitonic dipole emissions in few layer ReS2 and ReSe2 observed by polarized photoluminescence spectroscopy
CH Ho, ZZ Liu - Nano Energy, 2019 - Elsevier
Excitonic emission is a key factor for a two-dimensional (2D) semiconductor to be fabricated
in light-emitting device for optoelectronics application. Especially when the 2D material has …
in light-emitting device for optoelectronics application. Especially when the 2D material has …