Fujuan Wang
Henan Normal University
10 Papers
109 Citations
Fujuan Wang is an academic researcher from Henan Normal University. The author has contributed to research in topics: Auxiliary electrode & Quantum dot. The author has an hindex of 8, co-authored 10 publications.
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Papers
Ultrasonic-assisted synthesis of two dimensional BiOCl/MoS2 with tunable band gap and fast charge separation for enhanced photocatalytic performance under visible light.
Dapeng Wu,Wang Xiaolu,Hongju Wang,Fujuan Wang,Danqi Wang,Zhiyong Gao,Xinjun Wang,Fang Xu,Kai Jiang +8 more
TL;DR: The optimized BiOCl/MoS2 composites with two dimensional configuration shows good stability and outstanding organic carbon removal efficiency, which could serve as a promising photocatalyst for water remediation under visible light.
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Two dimensional graphitic-phase C3N4 as multifunctional protecting layer for enhanced short-circuit photocurrent in ZnO based dye-sensitized solar cells
TL;DR: In this paper, two-dimensional graphitic-phase C3N4 (g-C3Ns4) was successfully coated as multifunctional protecting layer on ZnO nanoparticles via ultrasonic irradiation assisted monolayer dispersion.
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In-situ synthesis of molybdenum sulfide/reduced graphene oxide porous film as robust counter electrode for dye-sensitized solar cells.
Chen Junliang,Dapeng Wu,Hongju Wang,Fujuan Wang,Yixin Wang,Zhiyong Gao,Fang Xu,Kai Jiang +7 more
- 15 Aug 2018
TL;DR: Based on the electrochemical investigations, the enhanced cell performance could be ascribed to the improved electrical conductivity, catalytic active sites and electrolyte diffusion rate, which finally contribute to the high catalytic performance on the reduction of I-/I3- couples in the electrolyte.
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Tunable synthesis of single-crystalline-like TiO2 mesocrystals and their application as effective scattering layer in dye-sensitized solar cells
TL;DR: Single-crystalline-like TiO2 mesocrystals with spherical and spindle-like shapes with high power conversion efficiencies were selectively prepared in acetic acid system using benzoic acid as structural directing regent to results in spherical TMCs with greater pore size distribution.
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Plasmon resonance energy transfer and hot electron injection induced high photocurrent density in liquid junction Ag@Ag2S sensitized solar cells.
TL;DR: Optical measurements showed that Ag nanoparticles could be employed as plasmon resonance centers to enhance the harvesting efficiency of incident light at the visible and near-infrared range and photoluminescence spectra demonstrated fast charge transfer at Ag@Ag2S/SnO2 interfaces, which facilitates direct hot electron injection from sensitizers to the SnO2 matrix and gives rise to the high photocurrent density.
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