The synthesis of two-dimensional metal–organic networks (2D-MOCNs) on solid substrates
is a rapidly growing field of research due to their potential applications in gas sensing …

Ferromagnetism is the collective alignment of atomic spins that retain a net magnetic
moment below the Curie temperature, even in the absence of external magnetic fields …

Antiferromagnetic spintronics is a rapidly emerging field with the potential to revolutionize
the way information is stored and processed. One of the key challenges in this field is the …

Surface-supported metal− organic frameworks (SMOFs) are long-range ordered periodic 2D
lattice layers formed by inorganic metal nodes and organic ligands via coordination bonds …

The coordination of lanthanides atoms in two-dimensional surface-confined metal–organic
networks is a promising path to achieve an ordered array of single atom magnets. These …

Metal–organic nanostructures are attractive in a variety of scientific fields, such as
biomedicine, energy harvesting, and catalysis. Alkali-based metal–organic nanostructures …

Transmetalation represents an appealing strategy toward fabricating and tuning functional
metal–organic polymers and frameworks for diverse applications. In particular, building two …

Materials with disordered structures may exhibit interesting properties. Metal–organic
frameworks (MOFs) are a class of hybrid materials composed of metal nodes and …

Metal-coordinated networks have been found to be excellent catalyst for environmental
purposes, such as green hydrogen generation or photo-degradation of pollutants. Recently …

The synthesis of lanthanide‐based organometallic sandwich compounds is very appealing
regarding their potential for single‐molecule magnetism. Here, it is exploited by on‐surface …