Abstract Two‐dimensional (2D) materials have attracted extensive research interests due to
their excellent properties related to unique structure. Strain engineering, as an important …

Anisotropic 2D materials are promising building blocks for future photonic and
optoelectronic devices due to their low structural symmetry and in‐plane optical anisotropy …

Two-dimensional (2D) van der Waals heterostructures that embody the electronic
characteristics of each constituent material have found extensive applications. Alloy …

Tellurene's giant in-plane optical anisotropy brings richer physics and an extra degree of
freedom to regulate its optical properties for designing novel and unique polarization …

Abstract Two-dimensional (2D) materials such as MoS 2 have extraordinary properties and
significant application potential in electronics, optoelectronics, energy storage …

Abstract Two-dimensional (2D) layered materials exhibit strong light-matter interactions,
remarkable excitonic effects, and ultrafast optical response, making them promising for high …

Low-symmetry 2D materials, such as black phosphorus (BP), ReS2, etc., usually exhibit
unique characteristic of its in-plane anisotropy. Inspired by this, the searching for novel low …

By using ab initio simulations based on density functional theory and many‐body
perturbation theory, a comprehensive analysis of the distinct optical signatures of various …

Layered two-dimensional (2D) tin dichalcogenides (SnS2 and SnSe2) have attracted
considerable attention owing to their environmental friendliness, semiconducting character …

As we know, binary two-dimensional (2D) IVA–VIA monochalcogenides such as stannous
sulfide (SnS) and stannous selenide (SnSe) possess an asymmetric crystalline structure …