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 design of networks of organic molecules at metal surfaces, highly attractive for a variety
of applications ranging from molecular electronics to gas sensors to protective coatings, has …

The intrinsic properties of predesignable topologies and tunable electronic structures,
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …

Surface coordination chemistry has been traditionally associated with analogies between
metal–ligand bonding in coordination compounds and chemisorptive interactions, the …

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 …

Two-dimensional (2D) metal–organic frameworks (MOFs) have been recently proposed as a
flexible material platform for realizing exotic quantum phases including topological and …

The geometric and electronic structure of two structurally similar metal–organic networks
grown on the Au (111) surface is investigated by scanning tunnelling microscopy (STM) and …

This review aims at giving the readers the basic concepts needed to understand two-
dimensional bimolecular organizations at the vacuum–solid interface. The first part …

New bis (dipyrrinato) zinc (II) complex micro‐and nanosheets containing zinc (II) porphyrin
(N2) are synthesized. A liquid/liquid interface method between dipyrrin porphyrin ligand L2 …

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 developing …