The use of metal–ligand cooperation (MLC) by transition metal bifunctional catalysts has
emerged at the forefront of homogeneous catalysis science. Specially designed ligands can …

The transformation of carbon dioxide (CO2) into useful chemicals, advanced materials, and
energy is a long-standing challenge in both fundamental science and industry. In recent …

Organometallic chemistry and its applications in homogeneous catalysis have been
dominated by mononuclear transition-metal complexes. The catalytic performance and …

Recent development in catalytic application of transition metal complexes having an M–E
bond (E= main group metal or metalloid element), which is stabilized by a multidentate …

Carbon-based dual-metal sites catalysts (DMSCs) have emerged as a new frontier in the
field of sustainable energy due to their unique coordination environments, electronic …

Over the past decade, significant progress has been made in the chemistry of transition
metal complexes supported by multidentate chelate ligands, such as pincer-type ligands, in …

Bimetallic catalysts of nickel (0) with a trivalent rare-earth ion or Ga (III), NiML3 (where L is
[iPr2PCH2NPh]−, and M is Sc, Y, La, Lu, or Ga), were investigated for the selective …

The generation of fuels and value-added chemicals from carbon dioxide (CO2) using
electrocatalysis is a promising approach to the eventual large-scale utilization of intermittent …

The catalytic reduction of carbon dioxide is a process of growing interest for the use of this
simple and abundant molecule as a renewable building block in C1-chemical synthesis and …

Complexes with neighboring metal centers in isolated pairs and their analogues on surfaces
are drawing increasing attention as catalysts. These include molecular homogeneous …