2D heterostructures for ubiquitous electronics and optoelectronics: principles, opportunities, and challenges
A grand family of two-dimensional (2D) materials and their heterostructures have been
discovered through the extensive experimental and theoretical efforts of chemists, material …
discovered through the extensive experimental and theoretical efforts of chemists, material …
Two-dimensional magnetic materials: structures, properties and external controls
Since the discovery of intrinsic ferromagnetism in atomically thin Cr2Gr2Te6 and CrI3 in
2017, research on two-dimensional (2D) magnetic materials has become a highlighted …
2017, research on two-dimensional (2D) magnetic materials has become a highlighted …
Ohmic contact engineering for two-dimensional materials
One of the major areas of semiconductor device research is the development of transparent
or ohmic contacts between semiconductors and metal electrodes for the efficient injection of …
or ohmic contacts between semiconductors and metal electrodes for the efficient injection of …
Gigantic Current Control of Coercive Field and Magnetic Memory Based on Nanometer‐Thin Ferromagnetic van der Waals Fe3GeTe2
Controlling magnetic states by a small current is essential for the next‐generation of energy‐
efficient spintronic devices. However, it invariably requires considerable energy to change a …
efficient spintronic devices. However, it invariably requires considerable energy to change a …
Flexible borophosphene monolayer: A potential Dirac anode for high-performance non-lithium ion batteries
H Lin, G Liu, L Zhu, Z Zhang, R **, Y Huang… - Applied Surface …, 2021 - Elsevier
Non-lithium ion batteries (NLIBs) have received great interest in the next generation
renewable energy storage due to their intrinsic safety and low cost; nonetheless, searching …
renewable energy storage due to their intrinsic safety and low cost; nonetheless, searching …
2D Xenes: optical and optoelectronic properties and applications in photonic devices
In recent years, tremendous attention has been paid to the investigation of single‐element
2D materials. These 2D materials mainly consist of elements from group IV and group V …
2D materials. These 2D materials mainly consist of elements from group IV and group V …
Machine learning for materials discovery: Two-dimensional topological insulators
One of the main goals and challenges of materials discovery is to find the best candidates
for each interest property or application. Machine learning rises in this context to efficiently …
for each interest property or application. Machine learning rises in this context to efficiently …
Strain Engineering of Low‐Dimensional Materials for Emerging Quantum Phenomena and Functionalities
Recent discoveries of exotic physical phenomena, such as unconventional
superconductivity in magic‐angle twisted bilayer graphene, dissipationless Dirac fermions in …
superconductivity in magic‐angle twisted bilayer graphene, dissipationless Dirac fermions in …
Colloquium: Spin-orbit effects in superconducting hybrid structures
Spin-orbit coupling (SOC) relates to the interaction between an electron's motion and its spin
and is ubiquitous in solid-state systems. Although the effect of SOC in normal-state …
and is ubiquitous in solid-state systems. Although the effect of SOC in normal-state …
Two-dimensional natural hyperbolic materials: from polaritons modulation to applications
Natural hyperbolic materials (HMs) in two dimensions (2D) have an extraordinarily high
anisotropy and a hyperbolic dispersion relation. Some of them can even sustain hyperbolic …
anisotropy and a hyperbolic dispersion relation. Some of them can even sustain hyperbolic …