Photocatalyzed and photosensitized chemical processes have seen growing interest
recently and have become among the most active areas of chemical research, notably due …

The continuous rise in the quantity of CO 2 emissions in the atmosphere and the threat it
poses to humankind and its environment are issues of great concern to everyone in the …

CO2 reduction through artificial photosynthesis represents a prominent strategy toward the
conversion of solar energy into fuels or useful chemical feedstocks. In such configuration …

Artificial photosynthesis involving CO 2 photoreduction is an appealing strategy for
addressing environmental and energy-shortage issues. Exploration of cost-efficient …

To stop global warming and climate changes, substantial efforts have been made to
diminish CO2 emission. Photocatalytic and electrocatalytic CO2 reduction into fuels has thus …

Exploiting noble-metal-free systems for high-performance photocatalytic CO2 reduction still
presents a key challenge, partially due to the long-standing difficulties in developing potent …

In the past two decades, emissive Cu (I) complexes have been synthesized with various
ligands, revealing their interesting and useful photophysical properties such as high …

Without using precious elements, a highly efficient and selective molecular-based
photocatalytic system for CO2-to-CO conversion in fully aqueous media has been …

Two dinuclear CuI complexes with two tetradentate ligands consisting of a diimine unit and
two diphenylphosphine units connected with− C4H8–chains were synthesized. The CuI …

Molecular catalysts for electrochemical and photochemical CO 2 reduction have developed
rapidly during the past two decades. Using non-noble metal (Ni, Co, Mn, Fe, and Cu) …