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 …
Recent progress of quantum dot infrared photodetectors
Infrared (IR) technology plays a significant role in many application scenarios, such as
satellite remote sensing, environmental monitoring, biomedical engineering, imaging …
satellite remote sensing, environmental monitoring, biomedical engineering, imaging …
Strong dipolar repulsion of one-dimensional interfacial excitons in monolayer lateral heterojunctions
Repulsive and long-range exciton–exciton interactions are crucial for the exploration of one-
dimensional (1D) correlated quantum phases in the solid state. However, the experimental …
dimensional (1D) correlated quantum phases in the solid state. However, the experimental …
Interface engineering of charge-transfer excitons in 2D lateral heterostructures
The existence of bound charge transfer (CT) excitons at the interface of monolayer lateral
heterojunctions has been debated in literature, but contrary to the case of interlayer excitons …
heterojunctions has been debated in literature, but contrary to the case of interlayer excitons …
Heterostructures of tin and tungsten selenides for robust overall water splitting
Layered transition metal selenides have garnered increased attention in recent times as non-
noble metal bifunctional electrocatalysts for electrochemical water splitting. Tungsten …
noble metal bifunctional electrocatalysts for electrochemical water splitting. Tungsten …
2D Lateral Heterojunction Arrays with Tailored Interface Band Bending
Abstract Two‐dimensional (2D) lateral heterojunction arrays, characterized by well‐defined
electronic interfaces, hold significant promise for advancing next‐generation electronic …
electronic interfaces, hold significant promise for advancing next‐generation electronic …
Enhanced Hydrogen Evolution Performance at the Lateral Interface between Two Layered Materials Predicted with Machine Learning
While economical and effective catalysts are required for sustainable hydrogen production,
low-dimensional interfacial engineering techniques have been developed to improve the …
low-dimensional interfacial engineering techniques have been developed to improve the …
Ultrafast nanoscale exciton dynamics via laser-combined scanning tunneling microscopy in atomically thin materials
H Mogi, Y Arashida, R Kikuchi, R Mizuno… - npj 2D Materials and …, 2022 - nature.com
Long-term stable excitons, bound pairs of electrons and holes, in van der Waals materials
were found to be handled at room temperature, paving the way to develop optoelectronic …
were found to be handled at room temperature, paving the way to develop optoelectronic …
Visualizing Band Profiles of Gate-Tunable Junctions in MoS2/WSe2 Heterostructure Transistors
X Sun, Y Chen, Z Li, Y Han, Q Zhou, B Wang… - ACS …, 2021 - ACS Publications
Heterostructure devices based on two-dimensional materials have been under intensive
study due to their intriguing electrical and optical properties. One key factor in understanding …
study due to their intriguing electrical and optical properties. One key factor in understanding …
[PDF][PDF] Mechanical, electronic, optical, piezoelectric and ferroic properties of strained graphene and other strained monolayers and multilayers: An update
This is an update of a previous review (Naumis et al 2017 Rep. Prog. Phys. 80 096501).
Experimental and theoretical advances for straining graphene and other metallic, insulating …
Experimental and theoretical advances for straining graphene and other metallic, insulating …