The introduction of redox-active ligands into transition metal complexes can lead to novel
redox behavior due to the ability of these ligands to serve as electron reservoirs. This feature …

Global warming is caused by excessive CO 2 production, and reducing CO 2 emissions is a
viable way to counteract this. It has been extensively studied how light-driven processes …

We present a supramolecular approach to catalyzing photochemical CO2 reduction through
second‐sphere porosity and charge effects. An iron porphyrin box (PB) bearing 24 cationic …

A series of new charge transfer (CT) chromophores of “α-diimine-MII-catecholate” type
(where M is 3d-row transition metals—Cu, Ni, Co) were derived from 4, 4′-di-tert-butyl-2 …

Robust earth-abundant transition metal-based photocatalysts are needed for photocatalytic
CO2 reduction. A series of six Ni (II) complexes have been synthesized with a tridentate …

The selective generation of carbon-based products in the presence of proton donors
currently represents one of the major goals in the catalysis of the CO2 reduction reaction …

Iron tetraphenylporphyrin complex modified with four trimethylammonium groups (Fe-p-
TMA) is found to be capable of catalyzing the eight-electron eight-proton reduction of CO2 to …

The synthesis of active and efficient catalysts for solar fuel generation is nowadays of high
relevance for the scientific community, but at the same time poses great challenges. Critical …

Molecular catalysts offer a unique opportunity to implement different chemical functionalities
to steer the efficiency and selectivity for the CO2 reduction for instance. Metalloporphyrins …

Implementing the synergistic effects between the metal and the ligand has successfully
streamlined the energetics for CO2 activation and gained high catalytic activities …