The potential commercial uses of metal–organic frameworks (MOFs) are intriguing. One of
the existing challenges is that many sophisticated nanotechnology applications require the …

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

Two-dimensional (2D) semiconductors (SCs) integrated with two or more functions are the
cornerstone for constructing multifunctional nanodevices but remain largely limited. Here, by …

Supramolecular coordination self-assembly on solid surfaces provides an effective route to
form two-dimensional (2D) metal–organic frameworks (MOFs). In such processes, surface …

Selective activation and controlled functionalization of C–H bonds in organic molecules is
one of the most desirable processes in synthetic chemistry. Despite progress in …

Surfaces are at the frontier of every known solid. They provide versatile supports for
functional nanostructures and mediate essential physicochemical processes. Intimately …

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 …

Thermal stimulus has been considered as a promising strategy for controlling on-surface
reactions, allowing the formation of diverse products on metal substrates. Here, we …

Kagome lattices constitute versatile platforms for studying paradigmatic correlated phases.
While molecular self-assembly of kagome structures on metallic substrates is promising, it is …

With regard to the development of single atom catalysts (SACs), non-noble metal–organic
layers combine a large functional variability with cost efficiency. Here, we characterize …