Chuqing Yao scite author profile

In this work, novel Prussian blue tetragonal nanorods were prepared by template-free solvothermal methods for removal of radionuclide Cs and Sr. It was worth that Prussian blue nanorods exhibited the better adsorption performance than co-precipitation PB or Prussian blue analogue composites. Thermodynamic analysis implied that adsorption process was spontaneous and endothermic which was described well with Langmuir isotherm and pseudo-second-order equation, the maximum adsorption capacity of PB nanorod was estimated to be 194.26 mg g -1 and 256.62 mg g -1 for Cs + and Sr 2+ . The adsorption mechanism of Cs + and Sr 2+ was studied by X-ray photoelectron spectroscopy, X-ray diffraction and 57 Fe Mössbaure spectroscopy, the results revealed that Cs + entered in PB crystal to generate a new phase, the most of Sr 2+ was trapped in internal crystal and the other exchanged Fe 2+ . Furthermore, the effect of co-existing ions and pH for PB adsorption process were also investigated. The results suggest that PB nanorods were outstanding candidate for removal of Cs + and Sr 2+ from radioactive wastewater.

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Halogen-Free Mold Compound Development for Ultra-Thin Packages

Liu

Yao

Jiang

et al. 2007

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Mechanical and flame retardant enhancement of EVA/MWCNTs neutron shielding composites irradiated with high-energy electron beam

Wang

et al. 2020

J Polym Res

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Removal of Cesium and Strontium From Radioactive Wastewater by Prussian Blue Nanorods

Yao

Dai

Chang

et al. 2022

Preprint

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In this work, novel Prussian blue tetragonal nanorods were prepared by template-free solvothermal methods for removal of radionuclide Cs and Sr. It was worth that Prussian blue nanorods exhibited the better adsorption performance than co-precipitation PB or Prussian blue analogue composites. Thermodynamic analysis implied that adsorption process was spontaneous and endothermic which was described well with Langmuir isotherm and pseudo-second-order equation, the maximum adsorption capacity of PB nanorod was estimated to be 194.26 mg g-1 and 256.62 mg g-1 for Cs+ and Sr2+. The adsorption mechanism of Cs+ and Sr2+ was studied by X-ray photoelectron spectroscopy, X-ray diffraction and 57Fe Mössbaure spectroscopy, the results revealed that Cs+ entered in PB crystal to generate a new phase, the most of Sr2+ was trapped in internal crystal and the other exchanged Fe2+. Furthermore, the effect of co-existing ions and pH for PB adsorption process were also investigated. The results suggest that PB nanorods were outstanding candidate for removal of Cs+ and Sr2+ from radioactive wastewater.

show abstract

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Chuqing Yao

Preparation and properties of flame-retardant neutron shielding material based on EVA polymer reinforced by radiation modification

Removal of cesium and strontium for radioactive wastewater by Prussian blue nanorods

Halogen-Free Mold Compound Development for Ultra-Thin Packages

Mechanical and flame retardant enhancement of EVA/MWCNTs neutron shielding composites irradiated with high-energy electron beam

Removal of Cesium and Strontium From Radioactive Wastewater by Prussian Blue Nanorods

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