Thermal transport is a fundamental mechanism of energy transfer process quite distinct from
wave propagation phenomena. It can be manipulated well beyond the possibilities offered …

The study of topological phases with unconventional bulk‐boundary correspondences and
nontrivial real Chern number has garnered significant attention in the topological states of …

Flat bands (FBs) can appear in two‐dimensional (2D) geometrically frustrated systems
caused by quantum destructive interference (QDI). However, the scarcity of pure 2D …

The destructive interference of wavefunctions in a kagome lattice can give rise to topological
flat bands (TFBs) with a highly degenerate state of electrons. Recently, TFBs have been …

Flat bands (FBs), presenting a strongly interacting quantum system, have drawn increasing
interest recently. However, experimental growth and synthesis of FB materials have been …

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

The Mott insulator provides an excellent foundation for exploring a wide range of strongly
correlated physical phenomena, such as high-temperature superconductivity, quantum spin …

Conspectus Novel technologies and new materials are in high demand for future various
applications to overcome the fundamental limitations of current techniques. For example, the …

Benefited from the lower dimensionality compared to their 3D counterpart, 2D flat‐band
systems provide cleaner lattice models, easier experimental verification, and higher …

In recent years, kagome materials have attracted significant attention due to their rich
emergent phenomena arising from the quantum interplay of geometry, topology, spin, and …