Hong Chen scite author profile

A thin Fe2TiO5 layer was produced on hematite either by evaporating a TiCl4 solution on FeOOH or by a simple HF-assisted Ti treatment of FeOOH, both followed by annealing. The prepared Fe2TiO5-hematite heterostructure showed a significant enhancement in photocurrent density compared to that of the pristine hematite. For example, the sample after HF-assisted Ti treatment exhibited a significantly enhanced photocurrent of 2.0 mA/cm(2) at 1.23 V vs RHE. Moreover, the performance of the Fe2TiO5-hematite heterostructure can be further improved by coupling with Co-Pi catalysts, achieving a higher photocurrent of 2.6 mA/cm(2) at 1.23 V vs RHE. Synchrotron-based soft X-ray absorption spectroscopy analyses clearly revealed the existence of an Fe2TiO5 structure on hematite forming a heterojunction, which reduced the photogenerated hole accumulation and then improved the performance.

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Probing solid state N-doping in graphene by X-ray absorption near-edge structure spectroscopy

Zhong

Deng

Mao

et al. 2012

Carbon

114

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Fabrication of TiO2/C3N4 heterostructure for enhanced photocatalytic Z-scheme overall water splitting

Yan

Chen

et al. 2016

Applied Catalysis B: Environmental

365

112

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Synthesis of PS/Ag Nanocomposite Spheres with Catalytic and Antibacterial Activities

Deng

Zhu

Peng

et al. 2012

ACS Appl. Mater. Interfaces

125

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This paper describes a simple, mild, and environmentally friendly approach to synthesize polystyrene/Ag (PS/Ag) nanocomposite spheres, which makes use of both reducing and stabilizing functions of polyvinylpyrrolidone (PVP) in aqueous media. In this approach, monodisperse polystyrene (PS) spheres, which are used as templates for the synthesis of core-shell nanocomposite spheres, are sulfonated first. Then, [Ag(NH(3))(2)](+) ions are adsorbed onto the surface of the PS template spheres via electrostatic attraction between -SO(3)H groups (grafted on the surface of the PS template spheres) and [Ag(NH(3))(2)](+) ions. [Ag(NH(3))(2)](+) ions are then reduced by and simultaneously protected by PVP. In this way, the PS/Ag nanocomposite spheres in aqueous media are obtained through a so-called one-pot method. Neither additional reducing agents nor toxic organic solvents are utilized during the synthesis process. Furthermore, the coverage degree and the particle size of Ag nanoparticles on PS/Ag nanocomposite spheres is easily tuned by changing the concentration of [Ag(NH(3))(2)](+) ions in aqueous media. Moreover, these PS/Ag nanocomposite spheres can be used as catalyst for the reduction of organic dyes and as antibacterial agents against Salmonella and Escherichia coli. In the present study, these PS/Ag nanocomposite spheres exhibit excellent catalytic properties (both in efficiency and recyclability) for the reduction of organic dyes, and the preliminary antibacterial assays indicate that these PS/Ag nanocomposite spheres also possess extraordinary antibacterial abilities against Salmonella and Escherichia coli.

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Hong Chen

Thin-Layer Fe₂TiO₅ on Hematite for Efficient Solar Water Oxidation

Probing solid state N-doping in graphene by X-ray absorption near-edge structure spectroscopy

Fabrication of TiO2/C3N4 heterostructure for enhanced photocatalytic Z-scheme overall water splitting

Synthesis of PS/Ag Nanocomposite Spheres with Catalytic and Antibacterial Activities

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About

Hong Chen

Thin-Layer Fe2TiO5 on Hematite for Efficient Solar Water Oxidation

Probing solid state N-doping in graphene by X-ray absorption near-edge structure spectroscopy

Fabrication of TiO2/C3N4 heterostructure for enhanced photocatalytic Z-scheme overall water splitting

Synthesis of PS/Ag Nanocomposite Spheres with Catalytic and Antibacterial Activities

Contact Info

Product

Resources

About

Thin-Layer Fe₂TiO₅ on Hematite for Efficient Solar Water Oxidation