Enzymatic catalysis has fueled considerable interest from chemists due to its high efficiency
and selectivity. However, the structural complexity and vulnerability hamper the application …

More than 95%(in volume) of all of today's chemical products are manufactured through
catalytic processes, making research into more efficient catalytic materials a thrilling and …

Atomically dispersed metal catalysts (ADCs), as an emerging class of heterogeneous
catalysts, have been widely investigated during the past two decades. The atomic dispersion …

Metal–organic frameworks (MOFs) have been recognized as one of the most important
classes of porous materials due to their unique attributes and chemical versatility …

Natural metalloenzymes with astonishing reaction activity and specificity underpin essential
life transformations. Nevertheless, enzymes only operate under mild conditions to keep …

Materials capable of the safe and efficient capture or degradation of toxic chemicals,
including chemical warfare agents (CWAs) and toxic industrial chemicals (TICs), are …

Because of the high catalytic activities and substrate specificity, natural enzymes have been
widely used in industrial, medical, and biological fields, etc. Although promising, they often …

Nanozymes are nanomaterials with enzyme-like characteristics (Chem. Soc. Rev., 2013, 42,
6060–6093). They have been developed to address the limitations of natural enzymes and …

UiO-66 is regarded as an epitome of metal–organic frameworks (MOFs) because of its
stability. Defect engineering has been used as a toolbox to alter the performance of MOFs …

Abstract “Nanozymes” usually refers to inorganic nanomaterials with enzyme‐like catalytic
activities. The research into nanozymes is one of the hot topics on the horizon of …