A Stepwise-Confined Self-Reduction Strategy to Construct a Dynamic Nanocatalyst for Boosting Tumor Catalytic Therapy

Abstract: Fenton/Fenton-like reactions involve the transformation of hydrogen peroxide to hydroxyl radicals to kill tumors. However, the current Fenton/Fenton-like biocatalyst always suffers from low therapeutic efficacy owing to the slow reaction rate of low-valence metal/high-valence metal cycles. Herein, a "stepwise-confined self-reduction" strategy is proposed to construct a dynamic self-reduction dual-metal (Cu/Fe) nanocatalyst in the thiols/disulfide bonds-doped micellar-organosilica framework. The preferential se… Show more

“…70,71 Although enhanced reaction activity is achieved, the catalytic selectivity is not well-controlled. Bimetallic NPs stabilized in aqueous micellar medium were further designed, [72][73][74][75] and their activity and selectivity can be affected by modulating the NP surface free energy, regulating the metal-organic interaction arising from surfactant modifiers and increasing the solubility of hydrogenation gas in water. Recently, Handa et al 76 reported that bimetallic Ni(0)Pd (0) NP catalyzed highly selective 1,4-reductions of a variety of Michael acceptors can be processed successfully under aqueous micellar conditions.…”

Composition control of Pd-based bimetallic alloys to boost selective hydrogenation of furfural in aqueous micelles

“…70,71 Although enhanced reaction activity is achieved, the catalytic selectivity is not well-controlled. Bimetallic NPs stabilized in aqueous micellar medium were further designed, [72][73][74][75] and their activity and selectivity can be affected by modulating the NP surface free energy, regulating the metal-organic interaction arising from surfactant modifiers and increasing the solubility of hydrogenation gas in water. Recently, Handa et al 76 reported that bimetallic Ni(0)Pd (0) NP catalyzed highly selective 1,4-reductions of a variety of Michael acceptors can be processed successfully under aqueous micellar conditions.…”

Composition control of Pd-based bimetallic alloys to boost selective hydrogenation of furfural in aqueous micelles

An Ultra‐Small Osmium Clusters‐Loaded Organosilica‐Based Antibacterial Nanoagent for Efficient Infected‐Wound Healing

Amino-enriched Zn-MOFs with self-reduction for energy-free simultaneous removal and electrochemical detection of heavy metal ions in the aquatic environment