Enzymes are a class of natural catalysts with high efficiency, specificity, and selectivity
unmatched by their synthetic counterparts and dictate a myriad of reactions that constitute …

A defining characteristic of nearly all catalytically functional MOFs is uniform, molecular-
scale porosity. MOF pores, linkers and nodes that define them, help regulate reactant and …

Because of their efficiency, selectivity, and environmental sustainability, there are significant
opportunities for enzymes in chemical synthesis and biotechnology. However, as the three …

Enzyme immobilization in nano-space to maintain or even enhance their activity and stability
is generally challenging. In recent years, metal–organic frameworks (MOFs), covalent …

As a typical green methodology, enzymatic catalysis has been extensively employed in
multitudinous chemical and biological transformation procedures. However, intrinsic fragile …

Laccases are natural catalysts with remarkable catalytic activity. However, their application
is limited by their lack of stability. Metal-organic frameworks (MOFs) have emerged as a …

The ex vivo application of enzymes in various processes, especially via enzyme
immobilization techniques, has been extensively studied in recent years in order to enhance …

Currently, metal–organic frameworks (MOFs), basically inorganic–organic hybrid materials,
have gained tremendous attention due to their vast applications. MOFs have shown …

The ubiquity of metal–organic frameworks in recent scientific literature underscores their
highly versatile nature. MOFs have been developed for use in a wide array of applications …

The present review focuses on the use of Metal–Organic Frameworks,(MOFs) highlighting
the most recent developments in the biological field. This review assesses, in the first …