Owing to their molecular building blocks, yet highly crystalline nature, metal–organic
frameworks (MOFs) sit at the interface between molecule and material. Their diverse …

Metal–organic coordination structures are materials comprising reticular metal centers and
organic linkers in which the two constituents bind with each other via metal–ligand …

The quantum anomalous Hall (QAH) effect has attracted extensive attention due to time-
reversal symmetry broken by a staggered magnetic flux emerging from ferromagnetic …

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

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 …

Electrically conductive metal–organic frameworks (MOFs) are an emerging class of
materials exhibiting not only tunable chemical functionality but also efficient charge carrier …

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** …

Recently, both experimental and theoretical advances have demonstrated that two-
dimensional conjugated metal–organic frameworks (2D-cMOFs) exhibit interesting …

We design from first principles a type of two-dimensional metal-organic framework (MOF)
using phenalenyl-based ligands to exhibit a half-filled flat band of the kagome lattice, which …

We explore the eclipsed stacking of a metal–organic Kagome lattice containing heavy-metal
nodes. Our model is Pt3 (HIB) 2, a hypothetical but viable member of a well-known family of …