The electrochemical reduction of carbon dioxide (CO2) powered by renewable energy is an
attractive sustainable approach to mitigate CO2 emissions and to produce fuels or value …

The replacement of fossil fuels by a clean and renewable energy source is one of the most
urgent and challenging issues our society is facing today, which is why intense research has …

Most research studies reported that oxygen vacancies on transition metal oxides are crucial
for improving the catalytic oxidation activities. However, few studies investigated the …

The design of highly efficient and selective photocatalytic systems for CO2 reduction that are
based on nonexpensive materials is a great challenge for chemists. The photocatalytic …

It is highly desirable to discover molecular catalysts with controlled selectivity for visible-light-
driven CO2 reduction to fuels. In the design of catalysts employing earth-abundant metals …

Conspectus Mimicking photosynthesis and producing solar fuels is an appealing way to
store the huge amount of renewable energy from the sun in a durable and sustainable way …

Herein, we report the facile synthesis of an efficient roll-like carbon nitride (C3N4)
photocatalyst for hydrogen production using a supramolecular complex composed of …

Herein, a facile strategy is illustrated to develop pyrolysis‐free out‐of‐plane coordinated
single atomic sites‐based M‐POP via a one‐pot Friedel Craft acylation route followed by a …

Understanding the activity and selectivity of molecular catalysts for CO2 reduction to fuels is
an important scientific endeavour in addressing the growing global energy demand. Cobalt …

The cobalt complex [CoIII N 4 H (Br) 2]+(N 4 H= 2, 12-dimethyl-3, 7, 11, 17-tetraazabicyclo-
[11.3. 1]-heptadeca-1 (7), 2, 11, 13, 15-pentaene) was used for electrocatalytic CO2 …