Oxidative stress is associated with many acute and chronic inflammatory diseases.
Development of nanomaterial-based enzyme mimetics for reactive oxygen species (ROS) …

A broad-spectrum reactive oxygen species (ROS)-scavenging hybrid material (CASCADE)
was developed by sequential adsorption of heparin (HEP) and poly (L-lysine)(PLL) …

Oxidative stress is related to many diseases, but available clinical treatment methods are
currently limited. Exploitation of enzyme-mimicking nanomaterials (nanozymes) is a …

A self‐assembly nanocomposite was designed to mimic intracellular enzymatic and non‐
enzymatic antioxidants‐constituted antioxidant defense machinery. In this work, selenium …

Skin wound healing remains a key challenge owing to its vulnerability to pathogen infection,
oxidative stress and persistent inflammatory response. Herein, a salen-manganese complex …

Reactive oxygen species (ROS)-induced oxidative stress is linked to various diseases,
including cardiovascular disease and cancer. Though highly efficient natural ROS …

Recent developments in exploring the biological enzyme mimicking properties in
nanozymes have opened a separate avenue, which provides a suitable alternative to the …

Reactive oxygen species (ROS) perform vital functions in numerous life processes and
significantly affect physiological activities in different organ systems in the human body …

In this work, for the first time, we constructed a novel multi‐nanozymes cooperative platform
to mimic intracellular antioxidant enzyme‐based defense system. V2O5 nanowire served as …

Biocompatible nanoparticles with an intrinsic ability to mimic the cellular antioxidant
enzymes are potential candidates for the development of new therapeutics for various …