Co‐based Nanozymatic Profiling: Advances Spanning Chemistry, Biomedical, and Environmental Sciences

Abstract: Nanozymes, next‐generation enzyme‐mimicking nanomaterials, have entered an era of rational design; among them, Co‐based nanozymes have emerged as captivating players over times. Co‐based nanozymes were developed and have garnered significant attention over the past five years. Their extraordinary properties, including regulatable enzymatic activity, stability, and multifunctionality stemming from magnetic properties, photothermal conversion effects, cavitation effects, and relaxation efficiency, have made Co‐b… Show more

“…Due to unique physical and chemical properties, the metal-based nanoparticles were widely used in biomedicine. − Most recently, metal-based nanozymes possess enzyme-mimicking catalytic activities, showcasing significant potential in biosensing, − disinfection, , and disease treatment. − Especially, metal clusters, typically consisting of a few to a hundred atoms and with particle size below 2 nm, − show wide prospects in biomedicine because of their well-defined structure, tunable physicochemical properties, and renal clearance feature. , The Au nanoclusters (Au NCs) exhibit high enzymatic catalytic activities and fluorescence, providing the potential opportunity for clinical and translational medicine. ,,,− …”

In Vivo Toxicology of Metabolizable Atomically Precise Au₂₅ Clusters at Ultrahigh Doses

“…Due to unique physical and chemical properties, the metal-based nanoparticles were widely used in biomedicine. − Most recently, metal-based nanozymes possess enzyme-mimicking catalytic activities, showcasing significant potential in biosensing, − disinfection, , and disease treatment. − Especially, metal clusters, typically consisting of a few to a hundred atoms and with particle size below 2 nm, − show wide prospects in biomedicine because of their well-defined structure, tunable physicochemical properties, and renal clearance feature. , The Au nanoclusters (Au NCs) exhibit high enzymatic catalytic activities and fluorescence, providing the potential opportunity for clinical and translational medicine. ,,,− …”

In Vivo Toxicology of Metabolizable Atomically Precise Au₂₅ Clusters at Ultrahigh Doses

“…In particular, emergence of nanoscience and nanotechnology over the past few decades has played a key role in shaping current environmental remediation science and technology. 37–42 To begin with, it is important to understand the scope and differences between nanoscience and nanotechnology. Typically, nanoscience represents a broad multidisciplinary area of scientific research, dealing with particles and structures in the dimensions of 1–100 nm.…”

Nanoscience and nanotechnology for water remediation: an earnest hope toward sustainability

“…Inorganic nanozymes are widely used in biomedical research because of their high catalytic efficiency and good stability, outperforming biological enzymes (such as horseradish peroxidase, HRP) for signal amplification in ELISA. 24,25 To endow nanozymes with specific recognition toward target proteins, the surfaces of nanozymes are often modified with antibodies or aptamers. 26−28 Considering that the catalytic activity of nanozymes depends on the surface's active sites, these surface modification strategies may impair their enzymatic activity.…”

“…Inorganic nanozymes are widely used in biomedical research because of their high catalytic efficiency and good stability, outperforming biological enzymes (such as horseradish peroxidase, HRP) for signal amplification in ELISA. , To endow nanozymes with specific recognition toward target proteins, the surfaces of nanozymes are often modified with antibodies or aptamers. − Considering that the catalytic activity of nanozymes depends on the surface’s active sites, these surface modification strategies may impair their enzymatic activity . Various kinds of antibodies or aptamers are involved in fabricating nanoprobes for multiplex profiling of EV protein biomarkers. − However, only a few nanoprobes can be recognized by EV membrane proteins due to the small size of EVs and low copy number of the target proteins (normally 1–5 per EV), − leading to false negative results.…”

Choline Phosphate-Grafted Nanozymes as Universal Extracellular Vesicle Probes for Bladder Cancer Detection