Scientists have made an advancement in the field of electrocatalysis. Their latest research sheds light on how catalysts can stay in unanticipated forms during the process of nitrate reduction. The ...

For the first time, chemists have developed a titanium catalyst that makes light usable for selective chemical reactions. It provides a cost-effective and non-toxic alternative to the ruthenium and ...

Scientists from Tokyo University of Agriculture and Technology (TUAT), Japan, have discovered that a catalyst poison, which deactivates homogeneous catalysts, can be "reborn" as an efficient ligand by ...

Catalysis: They are essential in catalysis, particularly in processes like hydrogenation, hydroformylation, and polymerisation. For example, Ziegler-Natta catalysts, which are organometallic compounds ...

The combination of catalysis and plasmas under moderate temperatures is an emerging field [1]. There are two ways in which techniques are usually combined. The first is by introducing a catalyst in ...

Simulated ORR activities of Pt(111) and Pt1Ni1@Pt(111) based on pH-dependent microkinetic modeling and validation of synthesized Pt1Ni1/C: Quantitative microkinetic model predicted that the Pt1Ni1@Pt ...

Atmospheric CO 2 levels have increased as a result of anthropogenic activities. This rise has contributed to global warming, ocean acidification, and the degradation of ecosystems. Addressing this ...

Most of the drugs, plastics, and industrial materials widely used today are produced through chemical reactions. In general, most high-performance and sophisticated substances have complex structures, ...

Enzymes are catalysts that accelerate chemical reactions in living systems. They reduce the energy required for chemical reactions to occur and act like a team of experts in construction projects, ...