Single-Molecule Spectroscopy Reveals the Plasmon-Assisted Nanozyme Catalysis on AuNR@TiO₂

Abstract: Gold nanoparticles are frequently employed as nanozyme materials due to their capacity to catalyze various enzymatic reactions. Given their plasmonic nature, gold nanoparticles have also found extensive utility in chemical and photochemical catalysis owing to their ability to generate excitons upon exposure to light. However, their potential for plasmon-assisted catalytic enhancement as nanozymes has remained largely unexplored due to the inherent challenge of rapid charge recombination. In this study, we have… Show more

“…In the past few years, catalytic nanosystems have been widely explored in chemodynamic therapy (CDT) to produce reactive oxygen species (ROS) in tumors for specific therapy . At the same time, plasma metal Au can also be widely used to enhance chemical and photochemical reaction activity through its surface plasmon resonance (SPR) . Additionally, tumors are starved by blocking the supply of nutrients or oxygen, thereby achieving the effect of killing the treated cancer .…”

Application of Multifunctional Nanozymes in Tumor Therapy

“…In the past few years, catalytic nanosystems have been widely explored in chemodynamic therapy (CDT) to produce reactive oxygen species (ROS) in tumors for specific therapy . At the same time, plasma metal Au can also be widely used to enhance chemical and photochemical reaction activity through its surface plasmon resonance (SPR) . Additionally, tumors are starved by blocking the supply of nutrients or oxygen, thereby achieving the effect of killing the treated cancer .…”

Application of Multifunctional Nanozymes in Tumor Therapy

“…10 As a potential alternative to natural enzymes, nanozymes have been widely used in the fields of biosensing, disinfection, disease treatment and environmental protection. [11][12][13][14][15][16][17][18] Carbon-based nanomaterials, due to their unique optical, thermal and mechanical properties as well as highly tunable catalytic properties, are currently a hotspot for research on nanozyme materials. 19 Many carbon-based nanomaterials, including fullerenes, carbon nanotubes, carbon nanospheres, carbon dots, graphene oxide and their derivatives, have been shown to possess unique enzyme-like properties.…”

Design of Fe and N co-decorated biomass-derived hierarchical porous carbon frameworks with boosted oxidase-like activity for hydroquinone detection

“…5,6,9–12 Nanozymes possessing distinctive physical, chemical, and biological properties inherent to nanomaterials along with enzyme-like catalytic activity are a subject of continuous exploration and research. 13–16 Compared with natural enzymes, nanozymes have the advantages of easy preparation, high stability and low cost, which makes nanozymes continue to develop rapidly, and have been widely used in biomedicine, environmental protection, energy supply and other fields. 9,10 After over a decade of extensive development, the repertoire of nanozymes has progressively expanded to encompass key enzymes such as SOD, glutathione peroxidase, CAT, and phosphatases, among others.…”

A metal–organic cage-derived cascade antioxidant nanozyme to mitigate renal ischemia-reperfusion injury