The surface and interface coordination structures of heterogeneous metal catalysts are
crucial to their catalytic performance. However, the complicated surface and interface …

Chemoenzymatic catalysis, by definition, involves the merging of sequential reactions using
both chemocatalysis and biocatalysis, typically in a single reaction vessel. A major …

Lipases are very versatile enzymes, and produced the attention of the several industrial
processes. Lipase can be achieved from several sources, animal, vegetable, and …

Biocatalysis, using enzymes for organic synthesis, has emerged as powerful tool for the
synthesis of active pharmaceutical ingredients (APIs). The first industrial biocatalytic …

Biocatalysis, using defined enzymes for organic transformations, has become a common
tool in organic synthesis, which is also frequently applied in industry. The generally high …

Multicatalysis is an emerging field targeting the development of efficient catalytic
transformations to quickly convert relatively simple starting materials into more complex …

The past decade has seen a substantial increase in successful examples of the combination
of chemo-and biocatalysis for multistep syntheses. This is driven by obvious advantages …

Heterogeneous metal catalysts are distinguished by their structure inhomogeneity and
complexity. The chameleonic nature of heterogeneous metal catalysts have prevented us …

The review compiles artificial cascades involving enzymes with a focus on the last 10 years.
A cascade is defined as the combination of at least two reaction steps in a single reaction …

One-pot reactions elaborated around transition metal-catalyzed isomerization of alkenes not
only offer the inherent advantages of atom-, step-and redox-economy but also enable the …