Shafei Zhao scite author profile

Catalytic oxidation of toxic organic pollutants in water urgently requires improved efficiency for practical application. Here a wrapping-pyrolysis strategy is exploited to convert CoP nanowires-threaded ZIF-8 into CoP nanoparticlesconfined nitrogen-doped yolk-shell porous carbon polyhedra, featuring highdensity active sites, and high adsorbability, dispersibility and conductivity (4-High). The nanoreactor efficiently activates peroxymonosulfate for bisphenol A (BPA) degradation over a wide pH range and in saline solutions. The apparent kinetic rate constant (18.96 min −1) is the highest reported to date and exceeds those of reported catalysts by 1-2 orders of magnitude. Experimental and theoretical evidence reveals that the catalysis occurs at the Co 4 P 4 @graphitic nitrogen-doped graphene site to produce surface-bound SO 4 •− and induce direct electron abstraction for BPA degradation. The high catalytic activity is attributed to the unique yolk-shell structure which concentrates catalytic and adsorptive sites within a confined space, as well as to the porous carbon polyhedron with high dispersibility and conductivity for fast mass and electron transport. Moreover, a fluidized-bed catalytic unit is constructed and enables continuous zero discharge of BPA and easy nanocatalyst recycling. This work will guide "4-High" catalyst design to improve future deep water purification technology.

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Constructing surface micro-electric fields on hollow single-atom cobalt catalyst for ultrafast and anti-interference advanced oxidation

Zhu

Nie

Zhao

et al. 2022

Applied Catalysis B: Environmental

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A Pt/SnO₂/rGO interface more capable of converting ethanol to CO₂ in ethanol electro-oxidation: a detailed experimental/DFT study

Zhao

Wang

et al. 2022

J. Mater. Chem. A

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Shafei Zhao

Confinement of CoP Nanoparticles in Nitrogen‐Doped Yolk‐Shell Porous Carbon Polyhedron for Ultrafast Catalytic Oxidation

Constructing surface micro-electric fields on hollow single-atom cobalt catalyst for ultrafast and anti-interference advanced oxidation

A Pt/SnO₂/rGO interface more capable of converting ethanol to CO₂ in ethanol electro-oxidation: a detailed experimental/DFT study

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Shafei Zhao

Confinement of CoP Nanoparticles in Nitrogen‐Doped Yolk‐Shell Porous Carbon Polyhedron for Ultrafast Catalytic Oxidation

Constructing surface micro-electric fields on hollow single-atom cobalt catalyst for ultrafast and anti-interference advanced oxidation

A Pt/SnO2/rGO interface more capable of converting ethanol to CO2 in ethanol electro-oxidation: a detailed experimental/DFT study

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A Pt/SnO₂/rGO interface more capable of converting ethanol to CO₂ in ethanol electro-oxidation: a detailed experimental/DFT study