Conspectus Metal–organic and covalent–organic frameworks (MOFs/COFs) have been
extensively studied for fundamental interests and their promising applications, taking …

Two-dimensional covalent organic frameworks (2D-COFs), also referred to as 2D polymer
networks, display unusual electronic-structure characteristics, which can significantly enrich …

In a two-dimensional (2D) Kagome lattice, the ideal Kagome bands including Dirac cones,
van Hove singularities, and a flat band are highly expected, because they can provide a …

The topological flat band (TFB) has been proposed theoretically in various lattice models, to
exhibit a rich spectrum of intriguing physical behaviors. However, the experimental …

The kagome lattice is a versatile platform for investigating correlated electronic states.
However, its realization in two-dimensional (2D) semiconductors for tunable device …

Surface with well-defined components and structures possesses unique electronic,
magnetic, optical and chemical properties. As a result, surface chemistry research plays a …

Among two-dimensional lattices, both kagome and Lieb lattices have been extensively
studied, showing unique physics related to their exotic flat and Dirac bands. Interestingly, we …

In kagome lattice, with the emergence of Dirac cones and flat band in electronic structure, it
provides a versatile ground for exploring intriguing interplay among frustrated geometry …

The discovery of graphene has led to the devotion of intensive efforts, theoretical and
experimental, to produce two-dimensional (2D) materials that can be used for develo** …

Polymorphic structures of transition metal dichalcogenides (TMDs) host exotic electronic
states, like charge density wave and superconductivity. However, the number of these …